US20190248385A1 - Bogie frame, bogie assembly and rail vehicle - Google Patents
Bogie frame, bogie assembly and rail vehicle Download PDFInfo
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- US20190248385A1 US20190248385A1 US16/335,227 US201716335227A US2019248385A1 US 20190248385 A1 US20190248385 A1 US 20190248385A1 US 201716335227 A US201716335227 A US 201716335227A US 2019248385 A1 US2019248385 A1 US 2019248385A1
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- United States
- Prior art keywords
- connecting beam
- bogie
- restrict
- seat
- suspension support
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61F—RAIL VEHICLE SUSPENSIONS, e.g. UNDERFRAMES, BOGIES OR ARRANGEMENTS OF WHEEL AXLES; RAIL VEHICLES FOR USE ON TRACKS OF DIFFERENT WIDTH; PREVENTING DERAILING OF RAIL VEHICLES; WHEEL GUARDS, OBSTRUCTION REMOVERS OR THE LIKE FOR RAIL VEHICLES
- B61F5/00—Constructional details of bogies; Connections between bogies and vehicle underframes; Arrangements or devices for adjusting or allowing self-adjustment of wheel axles or bogies when rounding curves
- B61F5/50—Other details
- B61F5/52—Bogie frames
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60G—VEHICLE SUSPENSION ARRANGEMENTS
- B60G13/00—Resilient suspensions characterised by arrangement, location or type of vibration dampers
- B60G13/001—Arrangements for attachment of dampers
- B60G13/003—Arrangements for attachment of dampers characterised by the mounting on the vehicle body or chassis of the damper unit
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61B—RAILWAY SYSTEMS; EQUIPMENT THEREFOR NOT OTHERWISE PROVIDED FOR
- B61B13/00—Other railway systems
- B61B13/04—Monorail systems
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61C—LOCOMOTIVES; MOTOR RAILCARS
- B61C3/00—Electric locomotives or railcars
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61F—RAIL VEHICLE SUSPENSIONS, e.g. UNDERFRAMES, BOGIES OR ARRANGEMENTS OF WHEEL AXLES; RAIL VEHICLES FOR USE ON TRACKS OF DIFFERENT WIDTH; PREVENTING DERAILING OF RAIL VEHICLES; WHEEL GUARDS, OBSTRUCTION REMOVERS OR THE LIKE FOR RAIL VEHICLES
- B61F13/00—Rail vehicles characterised by wheel arrangements, not otherwise provided for
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61F—RAIL VEHICLE SUSPENSIONS, e.g. UNDERFRAMES, BOGIES OR ARRANGEMENTS OF WHEEL AXLES; RAIL VEHICLES FOR USE ON TRACKS OF DIFFERENT WIDTH; PREVENTING DERAILING OF RAIL VEHICLES; WHEEL GUARDS, OBSTRUCTION REMOVERS OR THE LIKE FOR RAIL VEHICLES
- B61F3/00—Types of bogies
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61F—RAIL VEHICLE SUSPENSIONS, e.g. UNDERFRAMES, BOGIES OR ARRANGEMENTS OF WHEEL AXLES; RAIL VEHICLES FOR USE ON TRACKS OF DIFFERENT WIDTH; PREVENTING DERAILING OF RAIL VEHICLES; WHEEL GUARDS, OBSTRUCTION REMOVERS OR THE LIKE FOR RAIL VEHICLES
- B61F5/00—Constructional details of bogies; Connections between bogies and vehicle underframes; Arrangements or devices for adjusting or allowing self-adjustment of wheel axles or bogies when rounding curves
- B61F5/02—Arrangements permitting limited transverse relative movements between vehicle underframe or bolster and bogie; Connections between underframes and bogies
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61F—RAIL VEHICLE SUSPENSIONS, e.g. UNDERFRAMES, BOGIES OR ARRANGEMENTS OF WHEEL AXLES; RAIL VEHICLES FOR USE ON TRACKS OF DIFFERENT WIDTH; PREVENTING DERAILING OF RAIL VEHICLES; WHEEL GUARDS, OBSTRUCTION REMOVERS OR THE LIKE FOR RAIL VEHICLES
- B61F5/00—Constructional details of bogies; Connections between bogies and vehicle underframes; Arrangements or devices for adjusting or allowing self-adjustment of wheel axles or bogies when rounding curves
- B61F5/02—Arrangements permitting limited transverse relative movements between vehicle underframe or bolster and bogie; Connections between underframes and bogies
- B61F5/04—Bolster supports or mountings
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61F—RAIL VEHICLE SUSPENSIONS, e.g. UNDERFRAMES, BOGIES OR ARRANGEMENTS OF WHEEL AXLES; RAIL VEHICLES FOR USE ON TRACKS OF DIFFERENT WIDTH; PREVENTING DERAILING OF RAIL VEHICLES; WHEEL GUARDS, OBSTRUCTION REMOVERS OR THE LIKE FOR RAIL VEHICLES
- B61F9/00—Rail vehicles characterised by means for preventing derailing, e.g. by use of guide wheels
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60G—VEHICLE SUSPENSION ARRANGEMENTS
- B60G2300/00—Indexing codes relating to the type of vehicle
- B60G2300/10—Railway vehicles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60Y—INDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
- B60Y2200/00—Type of vehicle
- B60Y2200/30—Railway vehicles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60Y—INDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
- B60Y2400/00—Special features of vehicle units
- B60Y2400/86—Suspension systems
Definitions
- the present disclosure relates to the technical field of rail vehicles and particularly relates to a bogie frame, a bogie assembly and a rail vehicle with the bogie assembly.
- a rail vehicle includes an electric assembly and a bogie frame, and the bogie frame is provided with an electric assembly mounting groove for containing the electric assembly. Because the thicknesses of all parts of the bogie frame are basically identical, the structural strength of the electric assembly mounting groove is poor, the electric assembly is easy to deform, which results in poor fixation reliability of the electric assembly.
- the present disclosure aims at resolving one of technical problems in related technologies at least to some extent. Therefore, the embodiments of the present disclosure provide a bogie frame, and the bogie frame has high structural strength, which can ensure the mounting reliability of the electric assembly at the electric assembly mounting groove.
- the embodiments of the present disclosure further provide a bogie assembly.
- the embodiments of the present disclosure further provide a vehicle.
- the bogie frame includes a bogie body, the bogie body is substantially rectangular and includes a first connecting beam, a second connecting beam, a third connecting beam and a fourth connecting beam which are sequentially connected end to end, the first connecting beam is opposite to the third connecting beam, the second connecting beam is opposite to the fourth connecting beam, an electric assembly mounting groove is formed in the fourth connecting beam, the thickness of the fourth connecting beam is greater than the thickness of the second connecting beam, and the top wall of the first connecting beam and the top wall of the third connecting beam are connected between the top wall of the second connecting beam and the top wall of the fourth connecting beam in an arc shape.
- the electric assembly mounting groove is formed in the fourth connecting beam, an electric assembly is mounted on the fourth connecting beam.
- the structural strength of the fourth connecting beam is enhanced by reasonably increasing the thickness of the fourth connecting beam, so that the electric assembly can be reliably fixed on the fourth connecting beam to enhance the structural reliability of the bogie assembly.
- the top wall of the fourth connecting beam is in smooth connection and transition with the top wall of the second connecting beam under the condition that the top wall of the fourth connecting beam is higher than the top wall of the second connecting beam, so that the electric assembly can be better fixed on the bogie body.
- bogie frame according to the embodiments of the present disclosure can also have the following additional technical features:
- the bottom walls of the first connecting beam, the second connecting beam, the third connecting beam and the fourth connecting beam are positioned on the same plane.
- each of the first connecting beam, the second connecting beam, the third connecting beam and the fourth connecting beam includes an outer side wall and an inner side wall, the outer side wall and the inner side wall connect the top wall and the bottom wall and are spaced apart in in-and-out directions, and a connecting beam reinforcing rib is also connected between the outer side wall and the inner side wall.
- the top wall of the first connecting beam, the top wall of the second connecting beam and the top wall of the third connecting beam are of a split structure
- the top wall of the fourth connecting beam includes two sections positioned at two sides of the electric assembly mounting groove
- the two sections of the top wall of the fourth connecting beam are integrally formed with the top wall of the first connecting beam and the top wall of the third connecting beam respectively.
- the bogie frame also includes a suspension support seat connected to the bogie body, the suspension support seat is substantially in a horizontal state, and smooth transition is adopted between the bogie body and the suspension support seat.
- two suspension support seats are arranged and are respectively connected to two opposite sides of the bogie body, and define a rail recess together with the bogie body.
- the two suspension support seats are respectively connected to the second connecting beam and the fourth connecting beam, the distance between the upper surface of the second connecting beam and the upper surface of the corresponding suspension support seat is 480 millimeter (mm) to 660 mm, and the distance between the upper surface of the fourth connecting beam and the upper surface of the corresponding suspension support seat is 620 mm to 800 mm.
- the lower surface of the connected portion between the suspension support seat and the bogie body is provided with a plurality of connecting reinforcing ribs spaced apart.
- the bogie frame is provided with a horizontal wheel mounting seat, and the bogie frame is also provided with a horizontal wheel mounting seat reinforcing rib corresponding to the horizontal wheel mounting seat.
- the bogie frame also includes an electric assembly protection cover, and the electric assembly protection cover is mounted above the fourth connecting beam and is in an arched shape so as to cover the electric assembly mounting groove.
- the bogie assembly according to the embodiments of the present disclosure includes the bogie frame according to the above embodiments of the present disclosure.
- the bogie assembly according to the embodiments of the present disclosure and the bogie frame according to the embodiments of the present disclosure have the same beneficial effects, and will not be described in detail herein.
- bogie assembly according to the embodiments of the present disclosure can also have the following additional technical features:
- the bogie frame also includes a suspension support seat connected to the bogie body, a running wheel mounting groove is also formed in the bogie body, the first connecting beam and the third connecting beam are provided with guide wheel mounting seats, and the suspension support seat is provided with a steady wheel mounting seat.
- the bogie assembly also includes a running wheel which is rotationally mounted in the running wheel mounting groove; an electric assembly which is mounted in the electric assembly mounting groove and drives the running wheel to rotate; a suspension system which is mounted on the suspension support seat; a guide wheel which is mounted on the guide wheel mounting seat; a steady wheel which is mounted on the steady wheel mounting seat; a traction mechanism which is connected between the bogie frame and a vehicle body so as to haul the vehicle body.
- two suspension support seats are arranged and are respectively connected to the second connecting beam and the fourth connecting beam, the first connecting beam, the second connecting beam, the third connecting beam, the fourth connecting beam and the two suspension support seats define the rail recess together, two suspension systems are arranged and are symmetrically distributed with respect to the center of the bogie frame, and the two suspension systems are in one-to-one correspondence to the two suspension support seats respectively.
- an axial restrict component and a radial restrict component are arranged at the electric assembly mounting groove, and the electric assembly is fixedly connected to the axial restrict component and the radial restrict component.
- the axial restrict component is of a plate structure and is perpendicular to the axis of the electric assembly, the axial restrict component is substantially in a U shape, and a plurality of mounting holes are distributed in the extended direction thereof; two radial restrict components are arranged and are respectively of a plate structure, and the two radial restrict components are respectively positioned at two sides of the electric assembly and are respectively provided with mounting holes.
- the suspension system includes a vehicle body connecting seat, an elastic component, a transverse damper and a vertical damper, the vehicle body connecting seat is positioned above the suspension support seat, the elastic component is connected between the vehicle body connecting seat and the suspension support seat, the transverse damper is hinged between the vehicle body connecting seat and the bogie body, and the vertical damper is hinged between the vehicle body connecting seat and the suspension support seat.
- the vehicle body connecting seat includes an upper plate, suitable for being connected to the vehicle body; a web plate, positioned below the upper plate and connected to the upper plate; a lower plate, positioned below the web plate and connected to the web plate, wherein the surface of the upper plate facing the vehicle body is provided with a buffer cushion.
- two web plates are arranged and are respectively a long web plate and a short web plate with different lengths, one end of the long web plate is hinged to the transverse damper, the other end of the long web plate and one end of the short web plate are both hinged to the vertical damper, and the one end of the short web plate is adjacent to the other end of the long web plate.
- the surface of the short web plate facing away from the long web plate is provided with a suspension stop component
- the suspension stop component includes a rubber cushion
- the bogie body is provided with a transverse stop mounting seat
- the transverse stop mounting seat is corresponding to the suspension stop component and is suitable for matching with the suspension stop component.
- the suspension system also includes an elastic component restrict bracket, and the elastic component restrict bracket is connected between the vehicle body connecting seat and the suspension support seat.
- the upper end of the elastic component restrict bracket is hinged to the vehicle body connecting seat, the lower end of the elastic component restrict bracket is fixedly connected to the suspension support seat through a fastener, a damping cushion is arranged at the lower end of the elastic component restrict bracket, the damping cushion is positioned between the elastic component restrict bracket and the suspension support seat, and the fastener penetrates through the damping cushion.
- the end surface of the bottom wall of the electric assembly mounting groove facing away from the electric assembly is provided with a reinforcing structure, and the reinforcing structure is a plurality of reinforcing ribs.
- the reinforcing ribs include vertical reinforcing ribs and inclined reinforcing ribs, the vertical reinforcing ribs are perpendicular to the bottom wall of the electric assembly mounting groove, and the inclined reinforcing ribs are inclined with respect to the bottom wall of the electric assembly mounting groove.
- two vertical reinforcing ribs and two inclined reinforcing ribs are arranged, the two vertical reinforcing ribs are arranged between the two inclined reinforcing ribs, and the two inclined reinforcing ribs are respectively arranged close to two edges of the bottom wall of the electric assembly mounting groove.
- a guide wheel adjusting shim is arranged between the guide wheel and the guide wheel mounting seat, and a steady wheel adjusting shim is arranged between the steady wheel and the steady wheel mounting seat.
- the height of the steady wheel is less than the height of the guide wheel
- the diameter of the steady wheel is greater than the diameter of the guide wheel
- the central axis of the steady wheel is positioned at the outer side of the central axis of the guide wheel.
- the rail vehicle according to the embodiments of the present disclosure includes a vehicle body; and a bogie assembly according to the above embodiments of the present disclosure, wherein the vehicle body is mounted on the bogie assembly.
- FIG. 1 is a schematic of a bogie assembly, a vehicle body and a rail beam according to the embodiments of the present disclosure
- FIG. 2 is a front view of the bogie assembly and the rail beam according to the embodiments of the present disclosure
- FIG. 3 is a side view of the bogie assembly according to the embodiments of the present disclosure.
- FIG. 4 is a three-dimensional view of the bogie frame
- FIG. 5 is a partial schematic diagram of the electric assembly and the bogie frame
- FIG. 6 is a three-dimensional view of the bogie frame and a suspension system
- FIG. 7 is an exploded view of the suspension system
- FIG. 8 is a three-dimensional view of a vehicle body connecting seat
- FIG. 9 is a three-dimensional view of the bogie frame
- FIG. 10 is a three-dimensional view of the bogie frame
- FIG. 11 is a partial schematic of the bogie frame
- FIG. 12 is a partial exploded view of the bogie frame
- FIG. 13 is an enlarged view of a region A in FIG. 1 ;
- FIG. 14 is an exploded view of the guide wheel and the guide wheel mounting seat
- FIG. 15 is a schematic of an elastic component restrict bracket
- FIG. 16 is a schematic of the bogie frame with an electric assembly protection cover
- FIG. 17 is a schematic of the bogie assembly with the electric assembly protection cover
- FIG. 18 is a side view of the bogie assembly with the electric assembly protection cover.
- bogie frame 100 running wheel mounting groove 101 ; electric assembly mounting groove 102 ; axial restrict component 103 ; radial restrict component 104 ; radial restrict component reinforcing rib 105 ; rail recess 106 ; reinforcing rib 107 of electric assembly mounting groove 102 ; vertical reinforcing rib 108 ; inclined reinforcing rib 109 ;
- bogie body 110 transverse stop mounting seat 111 ; first connecting beam 112 ; second connecting beam 113 ; third connecting beam 114 ; fourth connecting beam 115 ; dodging groove 116 of bogie body 110 ; connecting beam reinforcing rib 117 ; horizontal wheel mounting seat reinforcing rib 118 ; top wall 112 a of first connecting beam 112 ; bottom wall 112 b of first connecting beam 112 ; outer side wall 112 c of first connecting beam 112 ; inner side wall 112 d of first connecting beam 112 ;
- suspension support seat 120 connecting reinforcing rib 121 ; guide wheel mounting seat 130 ; second pre-positioning component 131 of guide wheel mounting seat 130 ; steady wheel mounting seat 140 ; electric assembly protection cover 150 ;
- suspension system 400 vehicle body connecting seat 410 ; suspension stop component 411 ; upper plate 412 ; lower plate 413 ; buffer cushion 414 ; long web plate 415 ; short web plate 416 ;
- elastic component 420 transverse damper 430 ; vertical damper 440 ; elastic component restrict bracket 450 ; damping cushion 451 ; restrict component body 452 ; restrict component bottom plate 453 ;
- guide wheel 500 guide wheel adjusting shim 510 ; guide wheel mounting block 520 ; first pre-positioning component 521 of guide wheel mounting block 520 ;
- steady wheel 600 steady wheel mounting block 610 ;
- the bogie assembly 1000 can be applied to a rail vehicle, the rail vehicle also includes a vehicle body 2000 , the vehicle body 2000 is mounted on the bogie assembly 1000 , the rail vehicle can straddle on a single-track rail beam 3000 through the bogie assembly 1000 , and the rail vehicle and the rail beam 3000 can form a part of a rail traffic system.
- the bogie assembly 1000 may include a bogie frame 100 , a suspension system 400 , a running wheel 200 , an electric assembly 300 , a guide wheel 500 , a steady wheel 600 and a traction mechanism, a rail recess 106 is formed on the bogie frame 100 , and the rail recess 106 is matched on the rail beam 3000 .
- the bogie frame 100 may include a bogie body 110 and a suspension support seat 120 connected to the bogie body 110 , the suspension systems 400 may be mounted between the suspension support seat 120 and the vehicle body 2000 , and the bogie body 110 of the bogie frame 100 may be provided with a running wheel mounting groove 101 and an electric assembly mounting groove 102 .
- the running wheel 200 is rotationally mounted in the running wheel mounting groove 101 . That is, the running wheel 200 can rotate with respect to the bogie frame 100 and the rail beam 3000 .
- the electric assembly 300 is mounted in the electric assembly mounting groove 102 , and the electric assembly 300 drives the running wheel 200 to rotate to achieve the travel of the rail vehicle.
- the electric assembly 300 includes a motor assembly and a speed reducer, and the power output from the motor assembly is transmitted to the running wheel 200 through the speed reducer.
- the guide wheel 500 is mounted on the bogie body 110
- the steady wheel 600 is mounted on the suspension support seat 120 .
- a plurality of guide wheels 500 are provided and respectively arranged at two sides of the rail beam 3000
- a plurality of steady wheels 600 are provided and respectively arranged at two sides of the rail beam 3000
- the peripheral surfaces of the guide wheel 500 and the steady wheel 600 abut against the rail beam 3000 .
- the guide wheel 500 and the steady wheel 600 roll with respect to the rail beam 3000 , the guide wheel 500 can play a guiding role, and the steady wheel 600 can improve the traveling stability of the rail vehicle on the rail beam 3000 , so that the guide wheel 500 and the steady wheel 600 enable the rail vehicle to travel stably and reliably.
- the traction mechanism is connected between the bogie frame 100 and the vehicle body 2000 , and the bogie frame 100 can haul the vehicle body 2000 to move through the traction mechanism, so that the rail vehicle can travel on the rail beam 3000 .
- the bogie frame 100 is firstly described below.
- the bogie frame 100 includes a bogie body 110 and a suspension support seat 120 .
- two suspension support seats 120 are arranged and connected to two opposite sides of the bogie body 110 , and define a rail recess 106 together with the bogie body.
- the bogie body 110 is substantially rectangular, the bogie body 110 may include a plurality of connecting beams which are connected end to end, and a middle region defined by the plurality of connecting beams is formed as a running wheel mounting groove 101 .
- the bogie body 110 includes a first connecting beam 112 , a second connecting beam 113 , a third connecting beam 114 and a fourth connecting beam 115 which are sequentially connected end to end, the first connecting beam 112 and the third connecting beam 114 are oppositely arranged, and the second connecting beam 113 and the fourth connecting beam 115 are oppositely arranged.
- the first connecting beam 112 , the second connecting beam 113 , the third connecting beam 114 and the fourth connecting beam 115 are provided with connecting beam reinforcing ribs 117 .
- the connecting beam reinforcing rib 117 can enhance the structural strength of the corresponding connecting beam, so that the structural strength of the bogie body 110 can be enhanced, and the structural reliability of the bogie assembly 1000 can be further enhanced.
- the electric assembly mounting groove 102 is formed in the fourth connecting beam 115 .
- the electric assembly mounting groove 102 can be formed in the middle of the fourth connecting beam 115 .
- the upper end of the electric assembly mounting groove 102 is open, so that the electric assembly 300 can be conveniently mounted in the electric assembly mounting groove 102 .
- the electric assembly mounting groove 102 is linked with the running wheel mounting groove 101 , so as to facilitate the connection between the electric assembly 300 and the running wheel 200 .
- the shape of the electric assembly mounting groove 102 is adaptive to the shape of the lower half of the electric assembly 300 .
- the bogie frame 100 also includes an electric assembly protection cover 150 , the electric assembly protection cover 150 is mounted above the fourth connecting beam 115 , and the electric assembly protection cover 150 is in an arched shape so as to cover the electric assembly mounting groove 102 .
- the electric assembly protection cover 150 can cover the electric assembly 300 , so that the electric assembly protection cover 150 can effectively protect the electric assembly 300 to prevent components at the vehicle body 2000 above the electric assembly 300 from interfering with or disturbing the electric assembly 300 , and further, the operating reliability of the electric assembly 300 can be better ensured.
- the electric assembly mounting groove 102 can be provided with an axial restrict component 103 and a radial restrict component 104 , and the electric assembly 300 is fixedly connected to the axial restrict component 103 and the radial restrict component 104 .
- the axial direction of the electric assembly 300 is the left-and-right direction as shown in FIG. 1
- the axial restrict component 103 can limit the axial degree of freedom of the electric assembly 300
- the radial restrict component 104 can limit the radial degree of freedom of the electric assembly 300 .
- the electric assembly 300 when the rail vehicle travels on the rail beam 3000 , the electric assembly 300 has a tendency of moving in the front-and-rear direction or the left-and-right direction relative to the bogie body 110 under the force, and the axial restrict component 103 and the radial restrict component 104 can ensure the mounting reliability of the electric assembly 300 in the electric assembly mounting groove 102 in the bogie frame 100 , so that the structural reliability of the bogie assembly 1000 can be ensured.
- the axial restrict component 103 may be of a plate structure, the axial restrict component 103 is perpendicular to the axis of the electric assembly 300 , the axial restrict component 103 is substantially in a U shape, the U-shaped axial restrict component 103 corresponds to and is matched with the mounting plate of the electric assembly 300 , and a plurality of mounting holes are distributed in the extended direction (front-and-rear direction as shown in FIG. 4 ) of the axial restrict component 103 .
- the axial restrict component 103 can be fixedly connected to the electric assembly 300 through a fastener, the fastener may include a bolt and a nut, and the bolt can penetrate through the mounting hole in the electric assembly 300 and the mounting hole in the axial restrict component 103 and then is in connection with the threaded nut, so that the axial restrict component 103 and the electric assembly 300 can be mutually fixed. Because the axial restrict component 103 is perpendicular to the axis of the electric assembly 300 , when the electric assembly 300 has a tendency of moving in the left-and-right direction, the axial restrict component 103 can prevent the tendency promptly so as to ensure the mounting reliability of the electric assembly 300 in the electric assembly mounting groove 102 .
- the radial restrict components 104 may be of a plate structure, two radial restrict components 104 may be arranged and are respectively positioned at two sides of the electric assembly 300 , and the two radial restrict components 104 are respectively provided with mounting holes.
- Each radial restrict component 104 can extend in the up-and-down direction, each radial restrict component 104 is provided with two sets of mounting holes spaced apart up and down, and the number of each set of mounting holes is two.
- the platy radial restrict component 104 can be fixedly connected to the electric assembly 300 conveniently.
- the two radial restrict components 104 are symmetrically arranged with respect to the axis of the electric assembly 300 , so that the mounting reliability of the electric assembly 300 in the electric assembly mounting groove 102 can be enhanced.
- the radial restrict component 104 extends upwards beyond the upper surface of the bogie frame 100 . Furthermore, in order to ensure the reliability of the portion of the radial restrict component 104 beyond the upper surface of the bogie frame 100 , in the embodiments as shown in FIG. 4 and FIG. 5 , the upper surface of the bogie frame 100 is provided with a radial restrict component reinforcing rib 105 connected to the portion of the radial restrict component 104 beyond the upper surface of the bogie frame 100 .
- the radial restrict component reinforcing rib 105 is configured to be platy, and the radial restrict component reinforcing rib 105 is perpendicular to the radial restrict component 104 , so that the radial restrict component reinforcing rib 105 can better support and fix the radial restrict component 104 .
- the thickness of the fourth connecting beam 115 may be greater than the thickness of the second connecting beam 113 . Because the electric assembly mounting groove 102 is formed in the fourth connecting beam 115 , the electric assembly 300 is mounted on the fourth connecting beam 115 . Under such a condition, the structural strength of the fourth connecting beam 115 can be enhanced by reasonably increasing the thickness of the fourth connecting beam 115 , so that the fourth connecting beam 115 can reliably fix the electric assembly 300 , and further, the structural reliability of the bogie assembly 1000 can be enhanced.
- the two suspension support seats 120 are respectively connected below the second connecting beam 113 and the fourth connecting beam 115 , the distance between the upper surface of the second connecting beam 113 and the upper surface of the corresponding suspension support seat 120 is 480 mm to 660 mm, and the distance between the upper surface of the fourth connecting beam 115 and the upper surface of the corresponding suspension support seat 120 is 620 mm to 800 mm.
- the distance between the upper surface of the second connecting beam 113 and the upper surface of the corresponding suspension support seat 120 is 623 mm
- the distance between the upper surface of the fourth connecting beam 115 and the upper surface of the corresponding suspension support seat 120 is 759 mm. Therefore, the floor surface of the vehicle body 2000 is lower than the rotation axis of the running wheel 200 so as to enhance the traveling stability of the rail vehicle.
- each connecting beam may include a top wall, a bottom wall, an outer side wall and an inner side wall.
- the first connecting beam 112 includes a top wall 112 a, a bottom wall 112 b, an outer side wall 112 c and an inner side wall 112 d , the outer side wall 112 c and the inner side wall 112 d are connected between the top wall 112 a and the bottom wall 112 b, the outer side wall 112 c and the inner side wall 112 d are spaced apart in outer and inner directions, and a connecting beam reinforcing rib 117 is also connected between the outer side wall 112 c and the inner side wall 112 d.
- the outer side wall 112 c and the inner side wall 112 d can ensure the connecting strength between the top wall 112 a and the bottom wall 112 b, so that the structural strength of the connecting beam can be enhanced. Furthermore, the connecting beam reinforcing rib 117 can further enhance the structural strength of the connecting beam, so that the structural strength of the bogie frame 100 can be better improved, and the bogie frame 100 can better secure the electric assembly 300 .
- the top wall 112 a of the first connecting beam 112 and the top wall of the third connecting beam 114 can be connected between the top wall of the second connecting beam 113 and the top wall of the fourth connecting beam 115 in an arc shape.
- the top wall of the fourth connecting beam 115 is in smooth connection and transition with the top wall of the second connecting beam 113 under the condition that the top wall of the fourth connecting beam 115 is higher than the top wall of the second connecting beam 113 , so that the bogie body 110 can better secure the electric assembly 300 , and the bogie body 110 has strong structural bearing capacity and high strength under the same material weight.
- the bottom walls of the first connecting beam 112 , the second connecting beam 113 , the third connecting beam 114 and the fourth connecting beam 115 may be positioned on the same plane.
- the top wall 112 a of the first connecting beam 112 , the top wall of the second connecting beam 113 and the top wall of the third connecting beam 114 may be of a split structure
- the top wall of the fourth connecting beam 115 is divided into two sections positioned at two sides of the electric assembly mounting groove 102
- the two sections of the top wall of the fourth connecting beam 115 are integrally formed with the top wall 112 a of the first connecting beam 112 and the top wall of the third connecting beam 114 respectively.
- the top wall 112 a of the whole bogie frame 100 is reasonable in structure, the manufacturing difficulty of the bogie frame 100 can be reduced, and the manufacturing efficiency of the bogie assembly 1000 can be enhanced.
- the end surface of the bottom wall of the electric assembly mounting groove 102 facing away from the electric assembly 300 may be provided with a reinforcing structure.
- the reinforcing structure can effectively enhance the structural strength of the bottom wall of the electric assembly mounting groove 102 , so that the electric assembly mounting groove 102 can better secure the electric assembly 300 .
- the reinforcing structure may be a plurality of reinforcing ribs 107 , and the plurality of reinforcing ribs 107 of the electric assembly mounting groove 102 may be spaced apart.
- the plurality of reinforcing ribs 107 of the electric assembly mounting groove 102 may include vertical reinforcing ribs 108 and inclined reinforcing ribs 109 , the vertical reinforcing ribs 108 may be perpendicular to the bottom wall of the electric assembly mounting groove 102 , and the inclined reinforcing ribs 109 may be obliquely arranged relative to the bottom wall of the electric assembly mounting groove 102 .
- the vertical reinforcing rib 108 can better enhance the structural strength of the bottom wall of the electric assembly mounting groove 102 in the up-and-down direction
- the inclined reinforcing rib 109 can better enhance the structural strength of the bottom wall of the electric assembly mounting groove 102 in the up-and-down direction and the front-and-rear direction, so that the reliability of the electric assembly 300 mounted in the electric assembly mounting groove 102 can be enhanced.
- two vertical reinforcing ribs 108 and two inclined reinforcing ribs 109 may be respectively arranged, the two vertical reinforcing ribs 108 are arranged between the two inclined reinforcing ribs 109 , and the two inclined reinforcing ribs 109 are respectively arranged close to two edges of the bottom wall of the electric assembly mounting groove 102 .
- the bogie frame 100 may be provided with a horizontal wheel mounting seat, and the horizontal wheel mounting seat can be used for mounting a horizontal wheel, wherein the horizontal wheel may include a guide wheel 500 and a steady wheel 600 , and correspondingly, the horizontal wheel mounting seat may include a guide wheel mounting seat 130 and a steady wheel mounting seat 140 .
- the bogie frame 100 is also provided with a horizontal wheel mounting seat reinforcing rib 118 corresponding to the horizontal wheel mounting seat, and the horizontal wheel mounting seat reinforcing rib 118 may include a guide wheel mounting seat reinforcing rib and a steady wheel mounting seat reinforcing rib.
- two guide wheel mounting seat reinforcing ribs are arranged at the guide wheel mounting seat 130
- two steady wheel mounting seat reinforcing ribs are arranged at the steady wheel mounting seat 140 .
- the bogie body 110 may be provided with a transverse stop mounting seat 111
- the suspension system 400 mounted on the suspension support seat 120 is provided with a suspension stop component 411
- the suspension stop component 411 corresponds to and is suitable for being matched with the transverse stop mounting seat 111 .
- the transverse stop mounting seat 111 and the suspension stop component 411 are arranged oppositely, so that when the suspension system 400 offsets toward the bogie body 110 , the suspension stop component 411 abuts against the transverse stop mounting seat 111 , so that collision between the suspension system 400 and the bogie body 110 can be avoided, the suspension system 400 can be quickly reset, the inclining tendency of the rail vehicle can be eliminated, and further the structural reliability of the bogie assembly 1000 can be enhanced, and the service life of the bogie assembly 1000 can be prolonged.
- the suspension support seat 120 is substantially in a horizontal state, and smooth transition is adopted between the bogie body 110 and the suspension support seat 120 , so that the transition between the bogie body 110 and the suspension support seat 120 is smooth, the connection between the bogie body 110 and the suspension support seat 120 is reliable, and further, the structural reliability of the bogie frame 100 can be enhanced.
- the bottom of the suspension support seat 120 may also be provided with a reinforcing plate connected to the bottom of the bogie body 110 .
- a sufficient insulation gap can be formed between the suspension system 400 and the rail beam 3000 so as to be used for insulation between the rail beam 3000 and a conductor rail, so that the structural reliability of the bogie assembly 1000 can be enhanced.
- each suspension support seat 120 and the bogie body 110 may be provided with a plurality of connecting reinforcing ribs 121 spaced apart.
- Each connecting reinforcing rib 121 extends along the connecting direction between the bogie body 110 and the suspension support seat 120 , i.e., from the bogie body 110 to the suspension support seat 120 , so that the connecting reinforcing ribs 121 can enhance the connecting strength between the bogie body 110 and the suspension support seat 120 at least to some extent, and further, the structural reliability of the bogie frame 100 can be enhanced.
- the suspension system 400 is described in detail below.
- the suspension system 400 may include a vehicle body connecting seat 410 , an elastic component 420 , a transverse damper 430 , a vertical damper 440 and an elastic component restrict bracket 450 , the vehicle body connecting seat 410 is positioned above the suspension support seat 120 , the vehicle body connecting seat 410 may be fixedly connected to the vehicle body 2000 , and the elastic component 420 is connected between the vehicle body connecting seat 410 and the suspension support seat 120 .
- the upper end of the elastic component 420 is connected to the vehicle body connecting seat 410
- the lower end of the elastic component 420 is connected to the suspension support seat 120 .
- the transverse damper 430 is hinged between the vehicle body connecting seat 410 and the bogie body 110 , the vertical damper 440 extends along the up-and-down direction, and the vertical damper 440 is hinged between the vehicle body connecting seat 410 and the suspension support seat 120 .
- the elastic component restrict bracket 450 is connected between the vehicle body connecting seat 410 and the suspension support seat 120 .
- the elastic component 420 , the transverse damper 430 and the vertical damper 440 can ensure the stability of the rail vehicle in the traveling process along the up-and-down direction, the left-and-right direction and the front-and-rear direction together, and the suspension system 400 can achieve damping and buffering effects, so that vibration or bumpiness of the rail vehicle in the traveling process can be reduced, and the traveling noise of the rail vehicle can be reduced.
- Each of the hinging mode between the transverse damper 430 and the bogie body 110 , the hinging mode between the transverse damper 430 and the vehicle body connecting seat 410 , the hinging mode between the vertical damper 440 and the vehicle body connecting seat 410 and the hinging mode between the vertical damper 440 and the suspension support seat 120 is a spherical hinge, so that the damping effect of the suspension system 400 can be enhanced, and the phenomenon of stress concentration can be prevented so as to enhance the reliability of the suspension system 400 .
- two suspension systems 400 may be provided and symmetrically arranged with respect to the center of the bogie frame 100 . That is, in the horizontal plane, one suspension system 400 rotates for 180° around the center of the bogie frame 100 to obtain another suspension system 400 so as to prevent the vehicle body 2000 from twisting in the horizontal plane, so that the stability of the rail vehicle in the traveling process can be enhanced.
- the transverse damper 430 and the vertical damper 440 may be respectively positioned at two sides of the elastic component 420 .
- the bogie body 110 may be provided with an dodging groove 116 for avoiding the transverse damper 430 .
- the arrangement of the transverse damper 430 is simple and reasonable, and the transverse damper 430 is reliably connected between the vehicle body connecting seat 410 and the bogie body 110 .
- the elastic component restrict bracket 450 is hinged to the vehicle body connecting seat 410 , and the elastic component restrict bracket 450 is fastened and connected to the suspension support seat 120 through a fastener. As shown in FIGS. 3 and 6 , the upper end of the elastic component restrict bracket 450 is hinged to the vehicle body connecting seat 410 to avoid the phenomenon of stress concentration, so that rigid fracture of the elastic component restrict bracket 450 can be avoided to ensure the structural reliability of the suspension system 400 .
- the elastic component restrict bracket 450 can effectively protect the elastic component 420 to prevent excessive deformation of the elastic component 420 , so that the service life of the elastic component 420 can be prolonged.
- the elastic component 420 may be an air spring or a hourglass spring.
- the vehicle body connecting seat 410 may include an upper plate 412 , a lower plate 413 and a web plate, the web plate is vertically connected between the upper plate 412 and the lower plate 413 , the upper plate 412 is suitable for being connected to the vehicle body 2000 , the lower plate 413 is suitable for being fixedly connected to the upper end of the elastic component 420 , and the surface of the upper plate 412 facing the vehicle body 2000 is provided with a buffer cushion 414 .
- the buffer cushion 414 can achieve damping and buffering effects between the vehicle body 2000 and the suspension system 400 , so that vibration of the rail vehicle in the traveling process can be reduced, and the noise of the rail vehicle in the traveling process can be reduced.
- the buffer cushion 414 may be a rubber cushion. As shown in FIG. 8 , the shape of the buffer cushion 414 is the same as the shape of the upper plate 412 . Thus, on the one hand, the buffer cushion 414 can achieve a reliable buffering effect between the vehicle body 2000 and the upper plate 412 , and on the other hand, the buffer cushion 414 and the upper plate 412 can be fastened simply and reliably.
- the web plate may be used for being connected to other components in the suspension system 400 , and there may be a plurality of web plates arranged in parallel.
- the plurality of web plates can enhance the connecting strength between the upper plate 412 and the lower plate 413 , and on the other hand, the plurality of web plates are convenient to be fixedly connected to other components in the suspension system 400 .
- the connecting reliability between the transverse damper 430 and the vertical damper 440 and the vehicle body connecting seat 410 can be ensured.
- the surface of the short web plate 416 facing away from the long web plate 415 is provided with the suspension stop component 411 .
- the suspension stop component 411 may include the rubber cushion. The rubber cushion can buffer collision between the suspension stop component 411 and the transverse stop mounting seat 111 so as to enhance the structural reliability of the bogie assembly 1000 .
- the surface of the long web plate 415 facing away from the short web plate 416 may be provided with a restrict bracket mounting plate, and the elastic component restrict bracket 450 is hinged on the restrict bracket mounting plate.
- the upper plate 412 , the web plate and the lower plate 413 may be in welded connection.
- the structural integrity of the vehicle body connecting seat 410 is better, the mounting method of the vehicle body connecting seat 410 is simple, and the mounting efficiency of the vehicle body connecting seat 410 is high.
- the lower end of the elastic component restrict bracket 450 may be provided with a damping cushion 451 , and the damping cushion 451 and the suspension support seat 120 are fastened, for example, through a fastener.
- the fastener can sequentially penetrate through the suspension support seat 120 and the damping cushion 451 of the elastic component restrict bracket 450 so as to fix the damping cushion 451 and the suspension support seat 120 .
- the damping cushion 451 of the elastic component restrict bracket 450 may be the rubber cushion.
- part of the damping cushion 451 of the elastic component restrict bracket 450 protrudes to form a bulge, and a groove matched with the bulge is formed in the suspension support seat 120 .
- the bulge can be matched in the groove, thus on the one hand, the assembly between the damping cushion 451 of the elastic component restrict bracket 450 and the suspension support seat 120 can be facilitated, and on the other hand, the damping effect of the damping cushion 451 of the elastic component restrict bracket 450 can be enhanced so as to better reduce the noise generated by the bogie assembly 1000 .
- the elastic component restrict bracket 450 may be substantially triangular, the vertex of the elastic component restrict bracket 450 is hinged to the vehicle body connecting seat 410 , and the bottom edge of the elastic component restrict bracket 450 is provided with a plurality of mounting holes for fasteners to penetrate through.
- the connecting area between the bottom edge of the elastic component restrict bracket 450 and the suspension support seat 120 is large, so that the stress of all parts is uniform, the connecting reliability between the elastic component restrict bracket 450 and the suspension support seat 120 can be enhanced, and further, the structural reliability of the bogie assembly 1000 can be enhanced.
- the elastic component restrict bracket 450 can be configured to be of a plate structure, and the elastic component restrict bracket 450 may be provided with a fastener dodging hole.
- the fastener can conveniently extend into the corresponding mounting hole, and the fastener dodging hole can also reduce the weight of the elastic component restrict bracket 450 at least to some extent so as to enable the rail vehicle to meet the requirement for light weight.
- the elastic component restrict bracket 450 may include a restrict component body 452 and a restrict component bottom plate 453 , the upper end of the restrict component body 452 is hinged to the vehicle body connecting seat 410 , the restrict component bottom plate 453 is connected to the restrict component body 452 , and the restrict component bottom plate 453 is provided with a mounting hole.
- the restrict component bottom plate 453 corresponds to the damping cushion 451 , so that the damping cushion 451 can achieve a damping effect between the restrict component bottom plate 453 and the suspension support seat 120 .
- a support column is connected between the restrict component body 452 and the restrict component bottom plate 453 .
- the support column can enhance the structural strength of the elastic component restrict bracket 450 at least to some extent and can prolong the service life of the elastic component restrict bracket 450 .
- the elastic component restrict bracket 450 can be arranged at the side of the suspension system 400 away from the bogie body 110 .
- the position of the elastic component restrict bracket 450 is reasonable, so that the structural integrity of the suspension system 400 is better, and the structural stability of the bogie assembly 1000 can be enhanced.
- the horizontal wheel is described in detail below.
- the horizontal wheel includes a guide wheel 500 and a steady wheels 600 .
- the bogie frame 100 is provided with a horizontal wheel mounting seat
- the horizontal wheel mounting seat may include a guide wheel mounting seat 130 and a steady wheel mounting seat 140
- the guide wheel mounting seat 130 corresponds to the guide wheel 500
- the steady wheel mounting seat 140 corresponds to the steady wheel 600 .
- the guide wheel mounting seat 130 may be arranged on the bogie body 110 .
- the guide wheel mounting seat 130 may be arranged on the first connecting beam 112 and the third connecting beam 114 .
- the first connecting beam 112 may be provided with two guide wheel mounting seats 130 spaced apart
- the third connecting beam 114 may be provided with two guide wheel mounting seats 130 spaced apart.
- the steady wheel mounting seat 140 may be arranged at the bottom of the suspension support seat 120 , and each suspension support seat 120 corresponds to one steady wheel mounting seat 140 .
- the horizontal wheel is detachably mounted on the horizontal wheel mounting seat.
- the horizontal wheel may be fixedly connected to the corresponding horizontal wheel mounting seat through a fastener, and there may be a plurality of fasteners so as to ensure the fixed reliability between the horizontal wheel and the horizontal wheel mounting seat.
- the bogie assembly 1000 may also include an adjusting shim, and the adjusting shim is inserted between the horizontal wheel and the horizontal wheel mounting seat.
- the adjusting shim may include a guide wheel adjusting shim 510 and a steady wheel adjusting shim, the guide wheel adjusting shim 510 is inserted between the guide wheel 500 and the guide wheel mounting seat 130 , and the steady wheel adjusting shim may be arranged between the steady wheel 600 and the steady wheel mounting seat 140 .
- the peripheral surfaces of the steady wheel 600 and the guide wheel 500 abut against the rail beam 3000 all the time, so that the steady wheel 600 and the guide wheel 500 are in a worn state all the time until the gap between the steady wheel 600 and the rail beam 3000 is formed and the gap between the guide wheel 500 and the rail beam 3000 is formed.
- the effects of the steady wheel 600 and the guide wheel 500 are reduced or even gradually lost, so that the distance between the steady wheel 600 and the rail beam 3000 need to be adjusted to eliminate the gaps and the distance between the guide wheel 500 and the rail beam 3000 also need to be adjusted to eliminate the gaps.
- the corresponding adjusting shim can be dismounted to reduce the distance between the center of the steady wheel 600 and the rail beam 3000 and reduce the distance between the center of the guide wheel 500 and the rail beam 3000 , so that the steady wheel 600 and the guide wheel 500 can be kept in contact with the rail beam 3000 respectively, keeping the effects of the steady wheel 600 and the guide wheel 500 .
- a mounting block is arranged on the horizontal wheel and is fixed onto the horizontal wheel mounting seat through a fastener so as to fix the horizontal wheel onto the horizontal wheel mounting seat, and the fastener penetrates through the adjusting shim.
- the guide wheel 500 may be provided with a guide wheel mounting block 520
- the steady wheel 600 may be provided with a steady wheel mounting block 610 .
- the fastener sequentially penetrates through the guide wheel mounting block 520 , the guide wheel adjusting shim 510 and the guide wheel mounting seat 130 so as to fix the three components together, so that the guide wheel 500 can be fixed on the bogie body 110 .
- FIG. 13 the fastener sequentially penetrates through the guide wheel mounting block 520 , the guide wheel adjusting shim 510 and the guide wheel mounting seat 130 so as to fix the three components together, so that the guide wheel 500 can be fixed on the bogie body 110 .
- the fastener sequentially penetrates through the steady wheel mounting block 610 , the steady wheel adjusting shim and the steady wheel mounting seat 140 so as to fix the three components together, so that the steady wheel 600 can be fixed at the bottom of the suspension support seat 120 .
- the mounting block may be provided with a first pre-positioning component
- the horizontal wheel mounting seat may be provided with a second pre-positioning component
- the first pre-positioning component is suitable for being matched with the second pre-positioning component.
- the guide wheel mounting block 520 may be provided with a first pre-positioning component 521
- the guide wheel mounting seat 130 may be provided with a second pre-positioning component 131
- the first pre-positioning component 521 is suitable for being matched with the second pre-positioning component 131 .
- the first pre-positioning component 521 may be pre-matched with the second pre-positioning component 131 to achieve a pre-positioning mounting between the guide wheel mounting block 520 and the guide wheel mounting seat 130 , so that the guide wheel mounting block 520 and the guide wheel mounting seat 130 can be conveniently fixed through the fastener, and further, the mounting efficiency of the guide wheel 500 can be enhanced.
- the first pre-positioning component of the steady wheel mounting block 610 may be pre-matched with the second pre-positioning component of the steady wheel mounting seat 140 to achieve a pre-positioning mounting between the steady wheel mounting block 610 and the steady wheel mounting seat 140 , so that the steady wheel mounting block 610 and the steady wheel mounting seat 140 can be conveniently fixed through the fastener, and further, the mounting efficiency of the steady wheel 600 can be enhanced.
- one of the first pre-positioning component and the second pre-positioning component is a bulge
- the other one is a groove
- the bulge is suitable for being matched with the groove.
- the first pre-positioning component 521 of the guide wheel mounting block 520 may be a bulge
- the second pre-positioning component 131 of the guide wheel mounting seat 130 may be a groove
- the bulge may extend into the groove in advance so as to achieve pre-positioning of the guide wheel mounting seat 130 to the guide wheel mounting block 520 in the up-and-down direction, so that the guide wheel mounting block 520 and the corresponding guide wheel mounting seat 130 can be conveniently fixed through the fastener.
- the first pre-positioning component of the steady wheel mounting block 610 and the second pre-positioning component of the steady wheel mounting seat 140 also have the similar structures, and the descriptions thereof are omitted herein.
- An dodging groove for avoiding a fastener is formed in the adjusting shim, and one end of the dodging groove is opened. It can be understood that in the process of dismounting the adjusting shim, the fastener does not need to be completely removed from the mounting block and the horizontal wheel mounting seat, and the fastener may be unscrewed to release the mounting block and the horizontal wheel mounting seat to enable the adjusting shim to have an activity gap, so that a worker can dismount one of the plurality of adjusting shims by using a tool and then tighten the fastener.
- the dodging groove in the adjusting shim the adjusting shim can be dismounted simply and conveniently, so that the reliability of the guide wheel 500 and the steady wheel 600 can be better enhanced.
- fasteners may be arranged above and below the first pre-positioning components (the first pre-positioning component 521 of the guide wheel mounting block 520 and the first pre-positioning component of the steady wheel mounting block 610 ), and the numbers of the adjusting shims above and below the first pre-positioning components are identical.
- the steady wheel 600 is positioned between two guide wheels 500 .
- each side of the rail beam 3000 may be provided with one steady wheel 600 and two guide wheels 500 , the two guide wheels 500 are respectively arranged on the first connecting beam 112 and the third connecting beam 114 , and the steady wheel 600 is positioned on the suspension support seat 120 below the second connecting beam 113 or the fourth connecting beam 115 .
- the steady wheel 600 is positioned between the two guide wheels 500 , and in the up-and-down direction, the steady wheel 600 is lower than the two guide wheels 500 .
- the traveling stability of the rail vehicle is better.
- the diameter of the steady wheel 600 may be greater than the diameter of the guide wheel 500 , so that the body stability of the vehicle in traveling and turning processes can be enhanced.
- the central axis of the steady wheel 600 is positioned at the outer side of the central axis of the guide wheel 500 , wherein the outer and inner sides are defined according to the distances from the rail beam 3000 .
- the steady wheel 600 and the guide wheel 500 can be tightly matched to the rail beam 3000 , and the steady wheel 600 and the guide wheel 500 can ensure that a sufficient insulation space is reserved between the bogie frame 100 and the rail beam 3000 .
- the insulation space can ensure insulation between the rail beam 3000 and the conductor rail and can ensure insulation between the conductor rail and the bogie frame 100 , thereby further enhancing the traveling safety of the rail vehicle.
- the four guide wheels 500 may be positioned at the same height, and the two steady wheels 600 are positioned at another same height and symmetrically arranged with respect to the rail beam 3000 , and the height of the steady wheel 600 is less than the height of the guide wheel 500 .
- the structural reliability of the rail vehicle can be enhanced, and the four guide wheels 500 and the two steady wheels 600 can ensure the traveling safety of the rail vehicle.
- the rail vehicle according to the embodiments of the present disclosure includes the bogie assembly 1000 described in the above embodiments.
- references such as reference terms “an embodiment”, “some embodiments”, “example”, “specific example”, or “some examples” intend to indicate that specific features, structures, materials, or characteristics described with reference to embodiments or examples are included in at least one embodiment or example of the present disclosure.
- schematic descriptions of the foregoing terms do not need to aim at a same embodiment or example.
- the specific features, the structures, the materials or the characteristics that are described may be combined in a proper manner in any one or more embodiments or examples.
- persons skilled in the art can combine or group different embodiments or examples that are described in this specification and features of the different embodiments or examples.
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Abstract
Description
- The present disclosure relates to the technical field of rail vehicles and particularly relates to a bogie frame, a bogie assembly and a rail vehicle with the bogie assembly.
- In related technologies, a rail vehicle includes an electric assembly and a bogie frame, and the bogie frame is provided with an electric assembly mounting groove for containing the electric assembly. Because the thicknesses of all parts of the bogie frame are basically identical, the structural strength of the electric assembly mounting groove is poor, the electric assembly is easy to deform, which results in poor fixation reliability of the electric assembly.
- The present disclosure aims at resolving one of technical problems in related technologies at least to some extent. Therefore, the embodiments of the present disclosure provide a bogie frame, and the bogie frame has high structural strength, which can ensure the mounting reliability of the electric assembly at the electric assembly mounting groove.
- The embodiments of the present disclosure further provide a bogie assembly.
- The embodiments of the present disclosure further provide a vehicle.
- The bogie frame according to the embodiments of the present disclosure includes a bogie body, the bogie body is substantially rectangular and includes a first connecting beam, a second connecting beam, a third connecting beam and a fourth connecting beam which are sequentially connected end to end, the first connecting beam is opposite to the third connecting beam, the second connecting beam is opposite to the fourth connecting beam, an electric assembly mounting groove is formed in the fourth connecting beam, the thickness of the fourth connecting beam is greater than the thickness of the second connecting beam, and the top wall of the first connecting beam and the top wall of the third connecting beam are connected between the top wall of the second connecting beam and the top wall of the fourth connecting beam in an arc shape.
- In the bogie frame according to the embodiments of the present disclosure, because the electric assembly mounting groove is formed in the fourth connecting beam, an electric assembly is mounted on the fourth connecting beam. The structural strength of the fourth connecting beam is enhanced by reasonably increasing the thickness of the fourth connecting beam, so that the electric assembly can be reliably fixed on the fourth connecting beam to enhance the structural reliability of the bogie assembly. Furthermore, the top wall of the fourth connecting beam is in smooth connection and transition with the top wall of the second connecting beam under the condition that the top wall of the fourth connecting beam is higher than the top wall of the second connecting beam, so that the electric assembly can be better fixed on the bogie body.
- In addition, the bogie frame according to the embodiments of the present disclosure can also have the following additional technical features:
- In some examples of the present disclosure, the bottom walls of the first connecting beam, the second connecting beam, the third connecting beam and the fourth connecting beam are positioned on the same plane.
- In some examples of the present disclosure, each of the first connecting beam, the second connecting beam, the third connecting beam and the fourth connecting beam includes an outer side wall and an inner side wall, the outer side wall and the inner side wall connect the top wall and the bottom wall and are spaced apart in in-and-out directions, and a connecting beam reinforcing rib is also connected between the outer side wall and the inner side wall.
- In some examples of the present disclosure, the top wall of the first connecting beam, the top wall of the second connecting beam and the top wall of the third connecting beam are of a split structure, the top wall of the fourth connecting beam includes two sections positioned at two sides of the electric assembly mounting groove, and the two sections of the top wall of the fourth connecting beam are integrally formed with the top wall of the first connecting beam and the top wall of the third connecting beam respectively.
- In some examples of the present disclosure, the bogie frame also includes a suspension support seat connected to the bogie body, the suspension support seat is substantially in a horizontal state, and smooth transition is adopted between the bogie body and the suspension support seat.
- In some examples of the present disclosure, two suspension support seats are arranged and are respectively connected to two opposite sides of the bogie body, and define a rail recess together with the bogie body.
- In some examples of the present disclosure, the two suspension support seats are respectively connected to the second connecting beam and the fourth connecting beam, the distance between the upper surface of the second connecting beam and the upper surface of the corresponding suspension support seat is 480 millimeter (mm) to 660 mm, and the distance between the upper surface of the fourth connecting beam and the upper surface of the corresponding suspension support seat is 620 mm to 800 mm.
- In some examples of the present disclosure, the lower surface of the connected portion between the suspension support seat and the bogie body is provided with a plurality of connecting reinforcing ribs spaced apart.
- In some examples of the present disclosure, the bogie frame is provided with a horizontal wheel mounting seat, and the bogie frame is also provided with a horizontal wheel mounting seat reinforcing rib corresponding to the horizontal wheel mounting seat.
- In some examples of the present disclosure, the bogie frame also includes an electric assembly protection cover, and the electric assembly protection cover is mounted above the fourth connecting beam and is in an arched shape so as to cover the electric assembly mounting groove.
- The bogie assembly according to the embodiments of the present disclosure includes the bogie frame according to the above embodiments of the present disclosure.
- The bogie assembly according to the embodiments of the present disclosure and the bogie frame according to the embodiments of the present disclosure have the same beneficial effects, and will not be described in detail herein.
- In addition, the bogie assembly according to the embodiments of the present disclosure can also have the following additional technical features:
- In some examples of the present disclosure, the bogie frame also includes a suspension support seat connected to the bogie body, a running wheel mounting groove is also formed in the bogie body, the first connecting beam and the third connecting beam are provided with guide wheel mounting seats, and the suspension support seat is provided with a steady wheel mounting seat.
- In some examples of the present disclosure, the bogie assembly also includes a running wheel which is rotationally mounted in the running wheel mounting groove; an electric assembly which is mounted in the electric assembly mounting groove and drives the running wheel to rotate; a suspension system which is mounted on the suspension support seat; a guide wheel which is mounted on the guide wheel mounting seat; a steady wheel which is mounted on the steady wheel mounting seat; a traction mechanism which is connected between the bogie frame and a vehicle body so as to haul the vehicle body.
- In some examples of the present disclosure, two suspension support seats are arranged and are respectively connected to the second connecting beam and the fourth connecting beam, the first connecting beam, the second connecting beam, the third connecting beam, the fourth connecting beam and the two suspension support seats define the rail recess together, two suspension systems are arranged and are symmetrically distributed with respect to the center of the bogie frame, and the two suspension systems are in one-to-one correspondence to the two suspension support seats respectively.
- In some examples of the present disclosure, an axial restrict component and a radial restrict component are arranged at the electric assembly mounting groove, and the electric assembly is fixedly connected to the axial restrict component and the radial restrict component.
- In some examples of the present disclosure, the axial restrict component is of a plate structure and is perpendicular to the axis of the electric assembly, the axial restrict component is substantially in a U shape, and a plurality of mounting holes are distributed in the extended direction thereof; two radial restrict components are arranged and are respectively of a plate structure, and the two radial restrict components are respectively positioned at two sides of the electric assembly and are respectively provided with mounting holes.
- In some examples of the present disclosure, the suspension system includes a vehicle body connecting seat, an elastic component, a transverse damper and a vertical damper, the vehicle body connecting seat is positioned above the suspension support seat, the elastic component is connected between the vehicle body connecting seat and the suspension support seat, the transverse damper is hinged between the vehicle body connecting seat and the bogie body, and the vertical damper is hinged between the vehicle body connecting seat and the suspension support seat.
- In some examples of the present disclosure, the vehicle body connecting seat includes an upper plate, suitable for being connected to the vehicle body; a web plate, positioned below the upper plate and connected to the upper plate; a lower plate, positioned below the web plate and connected to the web plate, wherein the surface of the upper plate facing the vehicle body is provided with a buffer cushion.
- In some examples of the present disclosure, two web plates are arranged and are respectively a long web plate and a short web plate with different lengths, one end of the long web plate is hinged to the transverse damper, the other end of the long web plate and one end of the short web plate are both hinged to the vertical damper, and the one end of the short web plate is adjacent to the other end of the long web plate.
- In some examples of the present disclosure, the surface of the short web plate facing away from the long web plate is provided with a suspension stop component, the suspension stop component includes a rubber cushion, the bogie body is provided with a transverse stop mounting seat, and the transverse stop mounting seat is corresponding to the suspension stop component and is suitable for matching with the suspension stop component.
- In some examples of the present disclosure, the suspension system also includes an elastic component restrict bracket, and the elastic component restrict bracket is connected between the vehicle body connecting seat and the suspension support seat.
- In some examples of the present disclosure, the upper end of the elastic component restrict bracket is hinged to the vehicle body connecting seat, the lower end of the elastic component restrict bracket is fixedly connected to the suspension support seat through a fastener, a damping cushion is arranged at the lower end of the elastic component restrict bracket, the damping cushion is positioned between the elastic component restrict bracket and the suspension support seat, and the fastener penetrates through the damping cushion.
- In some examples of the present disclosure, the end surface of the bottom wall of the electric assembly mounting groove facing away from the electric assembly is provided with a reinforcing structure, and the reinforcing structure is a plurality of reinforcing ribs.
- In some examples of the present disclosure, the reinforcing ribs include vertical reinforcing ribs and inclined reinforcing ribs, the vertical reinforcing ribs are perpendicular to the bottom wall of the electric assembly mounting groove, and the inclined reinforcing ribs are inclined with respect to the bottom wall of the electric assembly mounting groove.
- In some examples of the present disclosure, two vertical reinforcing ribs and two inclined reinforcing ribs are arranged, the two vertical reinforcing ribs are arranged between the two inclined reinforcing ribs, and the two inclined reinforcing ribs are respectively arranged close to two edges of the bottom wall of the electric assembly mounting groove.
- In some examples of the present disclosure, a guide wheel adjusting shim is arranged between the guide wheel and the guide wheel mounting seat, and a steady wheel adjusting shim is arranged between the steady wheel and the steady wheel mounting seat.
- In some examples of the present disclosure, the height of the steady wheel is less than the height of the guide wheel, the diameter of the steady wheel is greater than the diameter of the guide wheel, and the central axis of the steady wheel is positioned at the outer side of the central axis of the guide wheel.
- The rail vehicle according to the embodiments of the present disclosure includes a vehicle body; and a bogie assembly according to the above embodiments of the present disclosure, wherein the vehicle body is mounted on the bogie assembly.
- The rail vehicle according to the embodiments of the present disclosure and the bogie assembly according to the embodiments of the present disclosure have the same beneficial effects, and will not be described in detail herein.
-
FIG. 1 is a schematic of a bogie assembly, a vehicle body and a rail beam according to the embodiments of the present disclosure; -
FIG. 2 is a front view of the bogie assembly and the rail beam according to the embodiments of the present disclosure; -
FIG. 3 is a side view of the bogie assembly according to the embodiments of the present disclosure; -
FIG. 4 is a three-dimensional view of the bogie frame; -
FIG. 5 is a partial schematic diagram of the electric assembly and the bogie frame; -
FIG. 6 is a three-dimensional view of the bogie frame and a suspension system; -
FIG. 7 is an exploded view of the suspension system; -
FIG. 8 is a three-dimensional view of a vehicle body connecting seat; -
FIG. 9 is a three-dimensional view of the bogie frame; -
FIG. 10 is a three-dimensional view of the bogie frame; -
FIG. 11 is a partial schematic of the bogie frame; -
FIG. 12 is a partial exploded view of the bogie frame; -
FIG. 13 is an enlarged view of a region A inFIG. 1 ; -
FIG. 14 is an exploded view of the guide wheel and the guide wheel mounting seat; -
FIG. 15 is a schematic of an elastic component restrict bracket; -
FIG. 16 is a schematic of the bogie frame with an electric assembly protection cover; -
FIG. 17 is a schematic of the bogie assembly with the electric assembly protection cover; -
FIG. 18 is a side view of the bogie assembly with the electric assembly protection cover. -
bogie assembly 1000; -
bogie frame 100; runningwheel mounting groove 101; electricassembly mounting groove 102; axial restrictcomponent 103; radial restrictcomponent 104; radial restrictcomponent reinforcing rib 105;rail recess 106; reinforcingrib 107 of electricassembly mounting groove 102; vertical reinforcingrib 108; inclined reinforcingrib 109; -
bogie body 110; transverse stop mounting seat 111; first connectingbeam 112; second connectingbeam 113; third connectingbeam 114; fourth connectingbeam 115; dodginggroove 116 ofbogie body 110; connectingbeam reinforcing rib 117; horizontal wheel mountingseat reinforcing rib 118;top wall 112 a of first connectingbeam 112;bottom wall 112 b of first connectingbeam 112;outer side wall 112 c of first connectingbeam 112;inner side wall 112 d of first connectingbeam 112; -
suspension support seat 120; connecting reinforcingrib 121; guidewheel mounting seat 130;second pre-positioning component 131 of guidewheel mounting seat 130; steadywheel mounting seat 140; electricassembly protection cover 150; - running
wheel 200;electric assembly 300; -
suspension system 400; vehiclebody connecting seat 410; suspension stop component 411;upper plate 412;lower plate 413; buffer cushion 414;long web plate 415;short web plate 416; -
elastic component 420;transverse damper 430;vertical damper 440; elastic component restrictbracket 450; dampingcushion 451; restrictcomponent body 452; restrict componentbottom plate 453; - guide
wheel 500; guidewheel adjusting shim 510; guidewheel mounting block 520; first pre-positioning component 521 of guidewheel mounting block 520; -
steady wheel 600; steadywheel mounting block 610; -
vehicle body 2000; andrail beam 3000. - The embodiments of the present disclosure are described in detail below. Examples of the embodiments are illustrated in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary, and are used for explaining rather than limiting the present disclosure.
- The
bogie assembly 1000 according to the embodiments of the present disclosure is described in detail below with reference to the accompanying drawings. Thebogie assembly 1000 can be applied to a rail vehicle, the rail vehicle also includes avehicle body 2000, thevehicle body 2000 is mounted on thebogie assembly 1000, the rail vehicle can straddle on a single-track rail beam 3000 through thebogie assembly 1000, and the rail vehicle and therail beam 3000 can form a part of a rail traffic system. - As shown in
FIG. 1 toFIG. 4 , thebogie assembly 1000 may include abogie frame 100, asuspension system 400, arunning wheel 200, anelectric assembly 300, aguide wheel 500, asteady wheel 600 and a traction mechanism, arail recess 106 is formed on thebogie frame 100, and therail recess 106 is matched on therail beam 3000. - The
bogie frame 100 may include abogie body 110 and asuspension support seat 120 connected to thebogie body 110, thesuspension systems 400 may be mounted between thesuspension support seat 120 and thevehicle body 2000, and thebogie body 110 of thebogie frame 100 may be provided with a runningwheel mounting groove 101 and an electricassembly mounting groove 102. The runningwheel 200 is rotationally mounted in the runningwheel mounting groove 101. That is, the runningwheel 200 can rotate with respect to thebogie frame 100 and therail beam 3000. Theelectric assembly 300 is mounted in the electricassembly mounting groove 102, and theelectric assembly 300 drives therunning wheel 200 to rotate to achieve the travel of the rail vehicle. Theelectric assembly 300 includes a motor assembly and a speed reducer, and the power output from the motor assembly is transmitted to therunning wheel 200 through the speed reducer. - The
guide wheel 500 is mounted on thebogie body 110, and thesteady wheel 600 is mounted on thesuspension support seat 120. A plurality ofguide wheels 500 are provided and respectively arranged at two sides of therail beam 3000, a plurality ofsteady wheels 600 are provided and respectively arranged at two sides of therail beam 3000, and the peripheral surfaces of theguide wheel 500 and thesteady wheel 600 abut against therail beam 3000. In other words, when the rail vehicle is in a traveling state, theguide wheel 500 and thesteady wheel 600 roll with respect to therail beam 3000, theguide wheel 500 can play a guiding role, and thesteady wheel 600 can improve the traveling stability of the rail vehicle on therail beam 3000, so that theguide wheel 500 and thesteady wheel 600 enable the rail vehicle to travel stably and reliably. - The traction mechanism is connected between the
bogie frame 100 and thevehicle body 2000, and thebogie frame 100 can haul thevehicle body 2000 to move through the traction mechanism, so that the rail vehicle can travel on therail beam 3000. - The
bogie frame 100 is firstly described below. - The
bogie frame 100 includes abogie body 110 and asuspension support seat 120. In some embodiments of the present disclosure, two suspension support seats 120 are arranged and connected to two opposite sides of thebogie body 110, and define arail recess 106 together with the bogie body. - As shown in
FIG. 4 andFIG. 6 , thebogie body 110 is substantially rectangular, thebogie body 110 may include a plurality of connecting beams which are connected end to end, and a middle region defined by the plurality of connecting beams is formed as a runningwheel mounting groove 101. In some embodiments of the present disclosure, thebogie body 110 includes a first connectingbeam 112, a second connectingbeam 113, a third connectingbeam 114 and a fourth connectingbeam 115 which are sequentially connected end to end, the first connectingbeam 112 and the third connectingbeam 114 are oppositely arranged, and the second connectingbeam 113 and the fourth connectingbeam 115 are oppositely arranged. - As shown in
FIG. 9 , the first connectingbeam 112, the second connectingbeam 113, the third connectingbeam 114 and the fourth connectingbeam 115 are provided with connectingbeam reinforcing ribs 117. The connectingbeam reinforcing rib 117 can enhance the structural strength of the corresponding connecting beam, so that the structural strength of thebogie body 110 can be enhanced, and the structural reliability of thebogie assembly 1000 can be further enhanced. - The electric
assembly mounting groove 102 is formed in the fourth connectingbeam 115. For example, the electricassembly mounting groove 102 can be formed in the middle of the fourth connectingbeam 115. The upper end of the electricassembly mounting groove 102 is open, so that theelectric assembly 300 can be conveniently mounted in the electricassembly mounting groove 102. Furthermore, the electricassembly mounting groove 102 is linked with the runningwheel mounting groove 101, so as to facilitate the connection between theelectric assembly 300 and therunning wheel 200. In some embodiments of the present disclosure, the shape of the electricassembly mounting groove 102 is adaptive to the shape of the lower half of theelectric assembly 300. - As shown in
FIG. 16 ,FIG. 17 andFIG. 18 , thebogie frame 100 also includes an electricassembly protection cover 150, the electricassembly protection cover 150 is mounted above the fourth connectingbeam 115, and the electricassembly protection cover 150 is in an arched shape so as to cover the electricassembly mounting groove 102. When theelectric assembly 300 is mounted on the electricassembly mounting groove 102, the electricassembly protection cover 150 can cover theelectric assembly 300, so that the electricassembly protection cover 150 can effectively protect theelectric assembly 300 to prevent components at thevehicle body 2000 above theelectric assembly 300 from interfering with or disturbing theelectric assembly 300, and further, the operating reliability of theelectric assembly 300 can be better ensured. - As shown in
FIG. 4 andFIG. 5 , the electricassembly mounting groove 102 can be provided with an axial restrictcomponent 103 and a radial restrictcomponent 104, and theelectric assembly 300 is fixedly connected to the axial restrictcomponent 103 and the radial restrictcomponent 104. The axial direction of theelectric assembly 300 is the left-and-right direction as shown inFIG. 1 , the axial restrictcomponent 103 can limit the axial degree of freedom of theelectric assembly 300, and the radial restrictcomponent 104 can limit the radial degree of freedom of theelectric assembly 300. It can be understood that when the rail vehicle travels on therail beam 3000, theelectric assembly 300 has a tendency of moving in the front-and-rear direction or the left-and-right direction relative to thebogie body 110 under the force, and the axial restrictcomponent 103 and the radial restrictcomponent 104 can ensure the mounting reliability of theelectric assembly 300 in the electricassembly mounting groove 102 in thebogie frame 100, so that the structural reliability of thebogie assembly 1000 can be ensured. - As shown in
FIG. 4 andFIG. 5 , the axial restrictcomponent 103 may be of a plate structure, the axial restrictcomponent 103 is perpendicular to the axis of theelectric assembly 300, the axial restrictcomponent 103 is substantially in a U shape, the U-shaped axial restrictcomponent 103 corresponds to and is matched with the mounting plate of theelectric assembly 300, and a plurality of mounting holes are distributed in the extended direction (front-and-rear direction as shown inFIG. 4 ) of the axial restrictcomponent 103. The axial restrictcomponent 103 can be fixedly connected to theelectric assembly 300 through a fastener, the fastener may include a bolt and a nut, and the bolt can penetrate through the mounting hole in theelectric assembly 300 and the mounting hole in the axial restrictcomponent 103 and then is in connection with the threaded nut, so that the axial restrictcomponent 103 and theelectric assembly 300 can be mutually fixed. Because the axial restrictcomponent 103 is perpendicular to the axis of theelectric assembly 300, when theelectric assembly 300 has a tendency of moving in the left-and-right direction, the axial restrictcomponent 103 can prevent the tendency promptly so as to ensure the mounting reliability of theelectric assembly 300 in the electricassembly mounting groove 102. - As shown in
FIG. 4 andFIG. 5 , the radial restrictcomponents 104 may be of a plate structure, two radial restrictcomponents 104 may be arranged and are respectively positioned at two sides of theelectric assembly 300, and the two radial restrictcomponents 104 are respectively provided with mounting holes. Each radial restrictcomponent 104 can extend in the up-and-down direction, each radial restrictcomponent 104 is provided with two sets of mounting holes spaced apart up and down, and the number of each set of mounting holes is two. The platy radial restrictcomponent 104 can be fixedly connected to theelectric assembly 300 conveniently. In some embodiments of the present disclosure, the two radial restrictcomponents 104 are symmetrically arranged with respect to the axis of theelectric assembly 300, so that the mounting reliability of theelectric assembly 300 in the electricassembly mounting groove 102 can be enhanced. - In order to be fixedly connected to the
electric assembly 300, the radial restrictcomponent 104 extends upwards beyond the upper surface of thebogie frame 100. Furthermore, in order to ensure the reliability of the portion of the radial restrictcomponent 104 beyond the upper surface of thebogie frame 100, in the embodiments as shown inFIG. 4 andFIG. 5 , the upper surface of thebogie frame 100 is provided with a radial restrictcomponent reinforcing rib 105 connected to the portion of the radial restrictcomponent 104 beyond the upper surface of thebogie frame 100. The radial restrictcomponent reinforcing rib 105 is configured to be platy, and the radial restrictcomponent reinforcing rib 105 is perpendicular to the radial restrictcomponent 104, so that the radial restrictcomponent reinforcing rib 105 can better support and fix the radial restrictcomponent 104. - The thickness of the fourth connecting
beam 115 may be greater than the thickness of the second connectingbeam 113. Because the electricassembly mounting groove 102 is formed in the fourth connectingbeam 115, theelectric assembly 300 is mounted on the fourth connectingbeam 115. Under such a condition, the structural strength of the fourth connectingbeam 115 can be enhanced by reasonably increasing the thickness of the fourth connectingbeam 115, so that the fourth connectingbeam 115 can reliably fix theelectric assembly 300, and further, the structural reliability of thebogie assembly 1000 can be enhanced. - In some embodiments of the present disclosure, there are two suspension support seats 120. The two suspension support seats 120 are respectively connected below the second connecting
beam 113 and the fourth connectingbeam 115, the distance between the upper surface of the second connectingbeam 113 and the upper surface of the correspondingsuspension support seat 120 is 480 mm to 660 mm, and the distance between the upper surface of the fourth connectingbeam 115 and the upper surface of the correspondingsuspension support seat 120 is 620 mm to 800 mm. In some embodiments of the present disclosure, the distance between the upper surface of the second connectingbeam 113 and the upper surface of the correspondingsuspension support seat 120 is 623 mm, and the distance between the upper surface of the fourth connectingbeam 115 and the upper surface of the correspondingsuspension support seat 120 is 759 mm. Therefore, the floor surface of thevehicle body 2000 is lower than the rotation axis of therunning wheel 200 so as to enhance the traveling stability of the rail vehicle. - In the embodiments of the present disclosure, each connecting beam may include a top wall, a bottom wall, an outer side wall and an inner side wall. As shown in
FIG. 11 andFIG. 12 , taking the first connectingbeam 112 as an example, the first connectingbeam 112 includes atop wall 112 a, abottom wall 112 b, anouter side wall 112 c and aninner side wall 112 d, theouter side wall 112 c and theinner side wall 112 d are connected between thetop wall 112 a and thebottom wall 112 b, theouter side wall 112 c and theinner side wall 112 d are spaced apart in outer and inner directions, and a connectingbeam reinforcing rib 117 is also connected between theouter side wall 112 c and theinner side wall 112 d. Theouter side wall 112 c and theinner side wall 112 d can ensure the connecting strength between thetop wall 112 a and thebottom wall 112 b, so that the structural strength of the connecting beam can be enhanced. Furthermore, the connectingbeam reinforcing rib 117 can further enhance the structural strength of the connecting beam, so that the structural strength of thebogie frame 100 can be better improved, and thebogie frame 100 can better secure theelectric assembly 300. - As shown in
FIG. 4 andFIG. 6 , thetop wall 112 a of the first connectingbeam 112 and the top wall of the third connectingbeam 114 can be connected between the top wall of the second connectingbeam 113 and the top wall of the fourth connectingbeam 115 in an arc shape. Thus, the top wall of the fourth connectingbeam 115 is in smooth connection and transition with the top wall of the second connectingbeam 113 under the condition that the top wall of the fourth connectingbeam 115 is higher than the top wall of the second connectingbeam 113, so that thebogie body 110 can better secure theelectric assembly 300, and thebogie body 110 has strong structural bearing capacity and high strength under the same material weight. In some embodiments of the present disclosure, the bottom walls of the first connectingbeam 112, the second connectingbeam 113, the third connectingbeam 114 and the fourth connectingbeam 115 may be positioned on the same plane. - As shown in
FIGS. 4, 6, 11 and 12 , thetop wall 112 a of the first connectingbeam 112, the top wall of the second connectingbeam 113 and the top wall of the third connectingbeam 114 may be of a split structure, the top wall of the fourth connectingbeam 115 is divided into two sections positioned at two sides of the electricassembly mounting groove 102, and the two sections of the top wall of the fourth connectingbeam 115 are integrally formed with thetop wall 112 a of the first connectingbeam 112 and the top wall of the third connectingbeam 114 respectively. Thus, thetop wall 112 a of thewhole bogie frame 100 is reasonable in structure, the manufacturing difficulty of thebogie frame 100 can be reduced, and the manufacturing efficiency of thebogie assembly 1000 can be enhanced. - As shown in
FIG. 9 andFIG. 10 , the end surface of the bottom wall of the electricassembly mounting groove 102 facing away from theelectric assembly 300 may be provided with a reinforcing structure. The reinforcing structure can effectively enhance the structural strength of the bottom wall of the electricassembly mounting groove 102, so that the electricassembly mounting groove 102 can better secure theelectric assembly 300. - As shown in
FIG. 9 andFIG. 10 , the reinforcing structure may be a plurality of reinforcingribs 107, and the plurality of reinforcingribs 107 of the electricassembly mounting groove 102 may be spaced apart. For example, the plurality of reinforcingribs 107 of the electricassembly mounting groove 102 may include vertical reinforcingribs 108 and inclined reinforcingribs 109, the vertical reinforcingribs 108 may be perpendicular to the bottom wall of the electricassembly mounting groove 102, and the inclined reinforcingribs 109 may be obliquely arranged relative to the bottom wall of the electricassembly mounting groove 102. Thus, the vertical reinforcingrib 108 can better enhance the structural strength of the bottom wall of the electricassembly mounting groove 102 in the up-and-down direction, and the inclined reinforcingrib 109 can better enhance the structural strength of the bottom wall of the electricassembly mounting groove 102 in the up-and-down direction and the front-and-rear direction, so that the reliability of theelectric assembly 300 mounted in the electricassembly mounting groove 102 can be enhanced. - Specifically, as shown in
FIG. 9 , two vertical reinforcingribs 108 and two inclined reinforcingribs 109 may be respectively arranged, the two vertical reinforcingribs 108 are arranged between the two inclined reinforcingribs 109, and the two inclined reinforcingribs 109 are respectively arranged close to two edges of the bottom wall of the electricassembly mounting groove 102. - As shown in
FIG. 10 , thebogie frame 100 may be provided with a horizontal wheel mounting seat, and the horizontal wheel mounting seat can be used for mounting a horizontal wheel, wherein the horizontal wheel may include aguide wheel 500 and asteady wheel 600, and correspondingly, the horizontal wheel mounting seat may include a guidewheel mounting seat 130 and a steadywheel mounting seat 140. Thebogie frame 100 is also provided with a horizontal wheel mountingseat reinforcing rib 118 corresponding to the horizontal wheel mounting seat, and the horizontal wheel mountingseat reinforcing rib 118 may include a guide wheel mounting seat reinforcing rib and a steady wheel mounting seat reinforcing rib. As shown inFIG. 10 , two guide wheel mounting seat reinforcing ribs are arranged at the guidewheel mounting seat 130, and two steady wheel mounting seat reinforcing ribs are arranged at the steadywheel mounting seat 140. - As shown in
FIGS. 4 and 8 , thebogie body 110 may be provided with a transverse stop mounting seat 111, thesuspension system 400 mounted on thesuspension support seat 120 is provided with a suspension stop component 411, and the suspension stop component 411 corresponds to and is suitable for being matched with the transverse stop mounting seat 111. Specifically, the transverse stop mounting seat 111 and the suspension stop component 411 are arranged oppositely, so that when thesuspension system 400 offsets toward thebogie body 110, the suspension stop component 411 abuts against the transverse stop mounting seat 111, so that collision between thesuspension system 400 and thebogie body 110 can be avoided, thesuspension system 400 can be quickly reset, the inclining tendency of the rail vehicle can be eliminated, and further the structural reliability of thebogie assembly 1000 can be enhanced, and the service life of thebogie assembly 1000 can be prolonged. - As shown in
FIG. 4 , thesuspension support seat 120 is substantially in a horizontal state, and smooth transition is adopted between thebogie body 110 and thesuspension support seat 120, so that the transition between thebogie body 110 and thesuspension support seat 120 is smooth, the connection between thebogie body 110 and thesuspension support seat 120 is reliable, and further, the structural reliability of thebogie frame 100 can be enhanced. The bottom of thesuspension support seat 120 may also be provided with a reinforcing plate connected to the bottom of thebogie body 110. In addition, by virtue of smooth transition between thebogie body 110 and thesuspension support seat 120, a sufficient insulation gap can be formed between thesuspension system 400 and therail beam 3000 so as to be used for insulation between therail beam 3000 and a conductor rail, so that the structural reliability of thebogie assembly 1000 can be enhanced. - As shown in
FIG. 10 , the lower surface of the connected portion between eachsuspension support seat 120 and thebogie body 110 may be provided with a plurality of connecting reinforcingribs 121 spaced apart. Each connecting reinforcingrib 121 extends along the connecting direction between thebogie body 110 and thesuspension support seat 120, i.e., from thebogie body 110 to thesuspension support seat 120, so that the connecting reinforcingribs 121 can enhance the connecting strength between thebogie body 110 and thesuspension support seat 120 at least to some extent, and further, the structural reliability of thebogie frame 100 can be enhanced. - The
suspension system 400 is described in detail below. - As shown in
FIG. 3 andFIG. 6 , thesuspension system 400 may include a vehiclebody connecting seat 410, anelastic component 420, atransverse damper 430, avertical damper 440 and an elastic component restrictbracket 450, the vehiclebody connecting seat 410 is positioned above thesuspension support seat 120, the vehiclebody connecting seat 410 may be fixedly connected to thevehicle body 2000, and theelastic component 420 is connected between the vehiclebody connecting seat 410 and thesuspension support seat 120. In other words, the upper end of theelastic component 420 is connected to the vehiclebody connecting seat 410, and the lower end of theelastic component 420 is connected to thesuspension support seat 120. Thetransverse damper 430 is hinged between the vehiclebody connecting seat 410 and thebogie body 110, thevertical damper 440 extends along the up-and-down direction, and thevertical damper 440 is hinged between the vehiclebody connecting seat 410 and thesuspension support seat 120. The elastic component restrictbracket 450 is connected between the vehiclebody connecting seat 410 and thesuspension support seat 120. Thus, theelastic component 420, thetransverse damper 430 and thevertical damper 440 can ensure the stability of the rail vehicle in the traveling process along the up-and-down direction, the left-and-right direction and the front-and-rear direction together, and thesuspension system 400 can achieve damping and buffering effects, so that vibration or bumpiness of the rail vehicle in the traveling process can be reduced, and the traveling noise of the rail vehicle can be reduced. - Each of the hinging mode between the
transverse damper 430 and thebogie body 110, the hinging mode between thetransverse damper 430 and the vehiclebody connecting seat 410, the hinging mode between thevertical damper 440 and the vehiclebody connecting seat 410 and the hinging mode between thevertical damper 440 and thesuspension support seat 120 is a spherical hinge, so that the damping effect of thesuspension system 400 can be enhanced, and the phenomenon of stress concentration can be prevented so as to enhance the reliability of thesuspension system 400. - In some embodiments of the present disclosure, two
suspension systems 400 may be provided and symmetrically arranged with respect to the center of thebogie frame 100. That is, in the horizontal plane, onesuspension system 400 rotates for 180° around the center of thebogie frame 100 to obtain anothersuspension system 400 so as to prevent thevehicle body 2000 from twisting in the horizontal plane, so that the stability of the rail vehicle in the traveling process can be enhanced. - For reasonable construction of the
suspension system 400 and better operation of thetransverse damper 430 and thevertical damper 440, thetransverse damper 430 and thevertical damper 440 may be respectively positioned at two sides of theelastic component 420. According to the embodiment as shown inFIG. 6 , thebogie body 110 may be provided with an dodginggroove 116 for avoiding thetransverse damper 430. Thus, the arrangement of thetransverse damper 430 is simple and reasonable, and thetransverse damper 430 is reliably connected between the vehiclebody connecting seat 410 and thebogie body 110. - Further, the elastic component restrict
bracket 450 is hinged to the vehiclebody connecting seat 410, and the elastic component restrictbracket 450 is fastened and connected to thesuspension support seat 120 through a fastener. As shown inFIGS. 3 and 6 , the upper end of the elastic component restrictbracket 450 is hinged to the vehiclebody connecting seat 410 to avoid the phenomenon of stress concentration, so that rigid fracture of the elastic component restrictbracket 450 can be avoided to ensure the structural reliability of thesuspension system 400. The elastic component restrictbracket 450 can effectively protect theelastic component 420 to prevent excessive deformation of theelastic component 420, so that the service life of theelastic component 420 can be prolonged. In some embodiments of the present disclosure, theelastic component 420 may be an air spring or a hourglass spring. - As shown in
FIG. 7 andFIG. 8 , the vehiclebody connecting seat 410 may include anupper plate 412, alower plate 413 and a web plate, the web plate is vertically connected between theupper plate 412 and thelower plate 413, theupper plate 412 is suitable for being connected to thevehicle body 2000, thelower plate 413 is suitable for being fixedly connected to the upper end of theelastic component 420, and the surface of theupper plate 412 facing thevehicle body 2000 is provided with a buffer cushion 414. The buffer cushion 414 can achieve damping and buffering effects between thevehicle body 2000 and thesuspension system 400, so that vibration of the rail vehicle in the traveling process can be reduced, and the noise of the rail vehicle in the traveling process can be reduced. The buffer cushion 414 may be a rubber cushion. As shown inFIG. 8 , the shape of the buffer cushion 414 is the same as the shape of theupper plate 412. Thus, on the one hand, the buffer cushion 414 can achieve a reliable buffering effect between thevehicle body 2000 and theupper plate 412, and on the other hand, the buffer cushion 414 and theupper plate 412 can be fastened simply and reliably. - The web plate may be used for being connected to other components in the
suspension system 400, and there may be a plurality of web plates arranged in parallel. On the one hand, the plurality of web plates can enhance the connecting strength between theupper plate 412 and thelower plate 413, and on the other hand, the plurality of web plates are convenient to be fixedly connected to other components in thesuspension system 400. Specifically, as shown inFIG. 8 , there are two web plates including along web plate 415 and ashort web plate 416 with different lengths respectively, the extended length of thelong web plate 415 is greater than the extended length of theshort web plate 416, one end (rear end inFIG. 8 ) of thelong web plate 415 is hinged to thetransverse damper 430, the other end (front end inFIG. 8 ) of thelong web plate 415 and one end (front end inFIG. 8 ) of theshort web plate 416 are both hinged to thevertical damper 440, and the front end of thelong web plate 415 is adjacent to the front end of theshort web plate 416. Thus, the connecting reliability between thetransverse damper 430 and thevertical damper 440 and the vehiclebody connecting seat 410 can be ensured. - In addition, as shown in
FIG. 8 , the surface of theshort web plate 416 facing away from thelong web plate 415 is provided with the suspension stop component 411. When the vehicle body shakes left and right, the suspension stop component 411 and the transverse stop mounting seat 111 are mutually abutted so as to stabilize thevehicle body 2000. The suspension stop component 411 may include the rubber cushion. The rubber cushion can buffer collision between the suspension stop component 411 and the transverse stop mounting seat 111 so as to enhance the structural reliability of thebogie assembly 1000. - As shown in
FIG. 8 , the surface of thelong web plate 415 facing away from theshort web plate 416 may be provided with a restrict bracket mounting plate, and the elastic component restrictbracket 450 is hinged on the restrict bracket mounting plate. - In some embodiments of the present disclosure, the
upper plate 412, the web plate and thelower plate 413 may be in welded connection. Thus, the structural integrity of the vehiclebody connecting seat 410 is better, the mounting method of the vehiclebody connecting seat 410 is simple, and the mounting efficiency of the vehiclebody connecting seat 410 is high. - As shown in
FIG. 15 , the lower end of the elastic component restrictbracket 450 may be provided with a dampingcushion 451, and the dampingcushion 451 and thesuspension support seat 120 are fastened, for example, through a fastener. Specifically, the fastener can sequentially penetrate through thesuspension support seat 120 and the dampingcushion 451 of the elastic component restrictbracket 450 so as to fix the dampingcushion 451 and thesuspension support seat 120. By setting the dampingcushion 451, rigid collision and impact between thesuspension support seat 120 and the elastic component restrictbracket 450 can be reduced, so that the structural reliability of thebogie assembly 1000 can be enhanced, and the noise generated between thesuspension support seat 120 and the elastic component restrictbracket 450 can be reduced. In some embodiments of the present disclosure, the dampingcushion 451 of the elastic component restrictbracket 450 may be the rubber cushion. - As shown in
FIG. 15 , part of the dampingcushion 451 of the elastic component restrictbracket 450 protrudes to form a bulge, and a groove matched with the bulge is formed in thesuspension support seat 120. The bulge can be matched in the groove, thus on the one hand, the assembly between the dampingcushion 451 of the elastic component restrictbracket 450 and thesuspension support seat 120 can be facilitated, and on the other hand, the damping effect of the dampingcushion 451 of the elastic component restrictbracket 450 can be enhanced so as to better reduce the noise generated by thebogie assembly 1000. - The elastic component restrict
bracket 450 may be substantially triangular, the vertex of the elastic component restrictbracket 450 is hinged to the vehiclebody connecting seat 410, and the bottom edge of the elastic component restrictbracket 450 is provided with a plurality of mounting holes for fasteners to penetrate through. The connecting area between the bottom edge of the elastic component restrictbracket 450 and thesuspension support seat 120 is large, so that the stress of all parts is uniform, the connecting reliability between the elastic component restrictbracket 450 and thesuspension support seat 120 can be enhanced, and further, the structural reliability of thebogie assembly 1000 can be enhanced. - The elastic component restrict
bracket 450 can be configured to be of a plate structure, and the elastic component restrictbracket 450 may be provided with a fastener dodging hole. Thus, the fastener can conveniently extend into the corresponding mounting hole, and the fastener dodging hole can also reduce the weight of the elastic component restrictbracket 450 at least to some extent so as to enable the rail vehicle to meet the requirement for light weight. - Specifically, as shown in
FIG. 15 , the elastic component restrictbracket 450 may include a restrictcomponent body 452 and a restrict componentbottom plate 453, the upper end of the restrictcomponent body 452 is hinged to the vehiclebody connecting seat 410, the restrict componentbottom plate 453 is connected to the restrictcomponent body 452, and the restrict componentbottom plate 453 is provided with a mounting hole. The restrict componentbottom plate 453 corresponds to the dampingcushion 451, so that the dampingcushion 451 can achieve a damping effect between the restrict componentbottom plate 453 and thesuspension support seat 120. - In addition, as shown in
FIG. 15 , a support column is connected between the restrictcomponent body 452 and the restrict componentbottom plate 453. The support column can enhance the structural strength of the elastic component restrictbracket 450 at least to some extent and can prolong the service life of the elastic component restrictbracket 450. - The elastic component restrict
bracket 450 can be arranged at the side of thesuspension system 400 away from thebogie body 110. Thus, the position of the elastic component restrictbracket 450 is reasonable, so that the structural integrity of thesuspension system 400 is better, and the structural stability of thebogie assembly 1000 can be enhanced. - The horizontal wheel is described in detail below. The horizontal wheel includes a
guide wheel 500 and asteady wheels 600. - The
bogie frame 100 is provided with a horizontal wheel mounting seat, the horizontal wheel mounting seat may include a guidewheel mounting seat 130 and a steadywheel mounting seat 140, the guidewheel mounting seat 130 corresponds to theguide wheel 500, and the steadywheel mounting seat 140 corresponds to thesteady wheel 600. The guidewheel mounting seat 130 may be arranged on thebogie body 110. For example, the guidewheel mounting seat 130 may be arranged on the first connectingbeam 112 and the third connectingbeam 114. Specifically, the first connectingbeam 112 may be provided with two guidewheel mounting seats 130 spaced apart, and the third connectingbeam 114 may be provided with two guidewheel mounting seats 130 spaced apart. The steadywheel mounting seat 140 may be arranged at the bottom of thesuspension support seat 120, and eachsuspension support seat 120 corresponds to one steadywheel mounting seat 140. - The horizontal wheel is detachably mounted on the horizontal wheel mounting seat. For example, the horizontal wheel may be fixedly connected to the corresponding horizontal wheel mounting seat through a fastener, and there may be a plurality of fasteners so as to ensure the fixed reliability between the horizontal wheel and the horizontal wheel mounting seat.
- As shown in
FIGS. 2, 3, 13 and 14 , thebogie assembly 1000 may also include an adjusting shim, and the adjusting shim is inserted between the horizontal wheel and the horizontal wheel mounting seat. The adjusting shim may include a guidewheel adjusting shim 510 and a steady wheel adjusting shim, the guidewheel adjusting shim 510 is inserted between theguide wheel 500 and the guidewheel mounting seat 130, and the steady wheel adjusting shim may be arranged between thesteady wheel 600 and the steadywheel mounting seat 140. It can be understood that during the traveling of the rail vehicle, the peripheral surfaces of thesteady wheel 600 and theguide wheel 500 abut against therail beam 3000 all the time, so that thesteady wheel 600 and theguide wheel 500 are in a worn state all the time until the gap between thesteady wheel 600 and therail beam 3000 is formed and the gap between theguide wheel 500 and therail beam 3000 is formed. In this case, the effects of thesteady wheel 600 and theguide wheel 500 are reduced or even gradually lost, so that the distance between thesteady wheel 600 and therail beam 3000 need to be adjusted to eliminate the gaps and the distance between theguide wheel 500 and therail beam 3000 also need to be adjusted to eliminate the gaps. Under such condition, the corresponding adjusting shim can be dismounted to reduce the distance between the center of thesteady wheel 600 and therail beam 3000 and reduce the distance between the center of theguide wheel 500 and therail beam 3000, so that thesteady wheel 600 and theguide wheel 500 can be kept in contact with therail beam 3000 respectively, keeping the effects of thesteady wheel 600 and theguide wheel 500. In some embodiments of the present disclosure, there may be a plurality of adjusting shims, and one adjusting shim can be dismounted in each adjustment so as to enable thesteady wheel 600 and theguide wheel 500 to be kept in contact with therail beam 3000 without replacing theguide wheel 500 and thesteady wheel 600. - A mounting block is arranged on the horizontal wheel and is fixed onto the horizontal wheel mounting seat through a fastener so as to fix the horizontal wheel onto the horizontal wheel mounting seat, and the fastener penetrates through the adjusting shim. In some embodiments of the present disclosure, the
guide wheel 500 may be provided with a guidewheel mounting block 520, and thesteady wheel 600 may be provided with a steadywheel mounting block 610. As shown inFIG. 13 , the fastener sequentially penetrates through the guidewheel mounting block 520, the guidewheel adjusting shim 510 and the guidewheel mounting seat 130 so as to fix the three components together, so that theguide wheel 500 can be fixed on thebogie body 110. Similarly, as shown inFIG. 2 , the fastener sequentially penetrates through the steadywheel mounting block 610, the steady wheel adjusting shim and the steadywheel mounting seat 140 so as to fix the three components together, so that thesteady wheel 600 can be fixed at the bottom of thesuspension support seat 120. - In some embodiments of the present disclosure, the mounting block may be provided with a first pre-positioning component, the horizontal wheel mounting seat may be provided with a second pre-positioning component, and the first pre-positioning component is suitable for being matched with the second pre-positioning component. As shown in
FIG. 14 , taking the guidewheel mounting block 520 as an example, the guidewheel mounting block 520 may be provided with a first pre-positioning component 521, the guidewheel mounting seat 130 may be provided with asecond pre-positioning component 131, and the first pre-positioning component 521 is suitable for being matched with thesecond pre-positioning component 131. In the mounting process of theguide wheel 500, the first pre-positioning component 521 may be pre-matched with thesecond pre-positioning component 131 to achieve a pre-positioning mounting between the guidewheel mounting block 520 and the guidewheel mounting seat 130, so that the guidewheel mounting block 520 and the guidewheel mounting seat 130 can be conveniently fixed through the fastener, and further, the mounting efficiency of theguide wheel 500 can be enhanced. - Similarly, in the mounting process of the
steady wheel 600, the first pre-positioning component of the steadywheel mounting block 610 may be pre-matched with the second pre-positioning component of the steadywheel mounting seat 140 to achieve a pre-positioning mounting between the steadywheel mounting block 610 and the steadywheel mounting seat 140, so that the steadywheel mounting block 610 and the steadywheel mounting seat 140 can be conveniently fixed through the fastener, and further, the mounting efficiency of thesteady wheel 600 can be enhanced. - In some embodiments of the present disclosure, one of the first pre-positioning component and the second pre-positioning component is a bulge, the other one is a groove, and the bulge is suitable for being matched with the groove. For example, as shown in
FIG. 14 , the first pre-positioning component 521 of the guidewheel mounting block 520 may be a bulge, thesecond pre-positioning component 131 of the guidewheel mounting seat 130 may be a groove, and the bulge may extend into the groove in advance so as to achieve pre-positioning of the guidewheel mounting seat 130 to the guidewheel mounting block 520 in the up-and-down direction, so that the guidewheel mounting block 520 and the corresponding guidewheel mounting seat 130 can be conveniently fixed through the fastener. Similarly, the first pre-positioning component of the steadywheel mounting block 610 and the second pre-positioning component of the steadywheel mounting seat 140 also have the similar structures, and the descriptions thereof are omitted herein. - An dodging groove for avoiding a fastener is formed in the adjusting shim, and one end of the dodging groove is opened. It can be understood that in the process of dismounting the adjusting shim, the fastener does not need to be completely removed from the mounting block and the horizontal wheel mounting seat, and the fastener may be unscrewed to release the mounting block and the horizontal wheel mounting seat to enable the adjusting shim to have an activity gap, so that a worker can dismount one of the plurality of adjusting shims by using a tool and then tighten the fastener. By forming the dodging groove in the adjusting shim, the adjusting shim can be dismounted simply and conveniently, so that the reliability of the
guide wheel 500 and thesteady wheel 600 can be better enhanced. - In some embodiments of the present disclosure, fasteners may be arranged above and below the first pre-positioning components (the first pre-positioning component 521 of the guide
wheel mounting block 520 and the first pre-positioning component of the steady wheel mounting block 610), and the numbers of the adjusting shims above and below the first pre-positioning components are identical. - At one side of the
rail beam 3000, thesteady wheel 600 is positioned between twoguide wheels 500. For example, each side of therail beam 3000 may be provided with onesteady wheel 600 and twoguide wheels 500, the twoguide wheels 500 are respectively arranged on the first connectingbeam 112 and the third connectingbeam 114, and thesteady wheel 600 is positioned on thesuspension support seat 120 below the second connectingbeam 113 or the fourth connectingbeam 115. Thus, in the front-and-rear direction, thesteady wheel 600 is positioned between the twoguide wheels 500, and in the up-and-down direction, thesteady wheel 600 is lower than the twoguide wheels 500. By the reasonable arrangement of theguide wheel 500 and thesteady wheel 600, the traveling stability of the rail vehicle is better. - The diameter of the
steady wheel 600 may be greater than the diameter of theguide wheel 500, so that the body stability of the vehicle in traveling and turning processes can be enhanced. The central axis of thesteady wheel 600 is positioned at the outer side of the central axis of theguide wheel 500, wherein the outer and inner sides are defined according to the distances from therail beam 3000. Thus, thesteady wheel 600 and theguide wheel 500 can be tightly matched to therail beam 3000, and thesteady wheel 600 and theguide wheel 500 can ensure that a sufficient insulation space is reserved between thebogie frame 100 and therail beam 3000. Such that, the insulation space can ensure insulation between therail beam 3000 and the conductor rail and can ensure insulation between the conductor rail and thebogie frame 100, thereby further enhancing the traveling safety of the rail vehicle. - As shown in
FIG. 2 , there may be fourguide wheels 500, and there may be twosteady wheels 600. The fourguide wheels 500 may be positioned at the same height, and the twosteady wheels 600 are positioned at another same height and symmetrically arranged with respect to therail beam 3000, and the height of thesteady wheel 600 is less than the height of theguide wheel 500. Thus, the structural reliability of the rail vehicle can be enhanced, and the fourguide wheels 500 and the twosteady wheels 600 can ensure the traveling safety of the rail vehicle. - The rail vehicle according to the embodiments of the present disclosure includes the
bogie assembly 1000 described in the above embodiments. - In the descriptions of this specification, descriptions such as reference terms “an embodiment”, “some embodiments”, “example”, “specific example”, or “some examples” intend to indicate that specific features, structures, materials, or characteristics described with reference to embodiments or examples are included in at least one embodiment or example of the present disclosure. In this specification, schematic descriptions of the foregoing terms do not need to aim at a same embodiment or example. Besides, the specific features, the structures, the materials or the characteristics that are described may be combined in a proper manner in any one or more embodiments or examples. In addition, in a case that is not mutually contradictory, persons skilled in the art can combine or group different embodiments or examples that are described in this specification and features of the different embodiments or examples.
- Although the embodiments of the present disclosure are shown and described above, it may be understood that the foregoing embodiments are examples, and cannot be understood as limitations to the present disclosure. A person of ordinary skill in the art may make changes, modifications, replacements, and variations to the foregoing embodiments without departing from the scope of the present disclosure.
Claims (27)
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CN201610840410.6 | 2016-09-21 | ||
CN201610839741.8 | 2016-09-21 | ||
CN201610839741.8A CN106809231B (en) | 2016-09-21 | 2016-09-21 | Bogie frame and bogie assembly |
CN201610840410.6A CN106809232B (en) | 2016-09-21 | 2016-09-21 | Bogie assembly and rail vehicle |
PCT/CN2017/075224 WO2018054017A1 (en) | 2016-09-21 | 2017-02-28 | Bogie frame, bogie assembly and rail vehicle |
Publications (2)
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US20190248385A1 true US20190248385A1 (en) | 2019-08-15 |
US11155282B2 US11155282B2 (en) | 2021-10-26 |
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US16/335,227 Active 2038-03-07 US11155282B2 (en) | 2016-09-21 | 2017-02-28 | Bogie frame, bogie assembly and rail vehicle |
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US (1) | US11155282B2 (en) |
EP (1) | EP3501936B1 (en) |
KR (1) | KR102168517B1 (en) |
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MX (1) | MX2019003215A (en) |
PH (1) | PH12019500614A1 (en) |
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US11155282B2 (en) * | 2016-09-21 | 2021-10-26 | Byd Company Limited | Bogie frame, bogie assembly and rail vehicle |
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WO2022109786A1 (en) * | 2020-11-24 | 2022-06-02 | 江苏金彭集团有限公司 | Integrated rear suspension support and positioning structure for electric vehicle |
CN113844770B (en) * | 2021-10-18 | 2023-03-14 | 青岛中车四方轨道车辆有限公司 | Bogie storage tool and bogie transportation method |
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- 2017-02-28 BR BR112019005487A patent/BR112019005487A2/en active Search and Examination
- 2017-02-28 WO PCT/CN2017/075224 patent/WO2018054017A1/en unknown
- 2017-02-28 US US16/335,227 patent/US11155282B2/en active Active
- 2017-02-28 KR KR1020197008280A patent/KR102168517B1/en active IP Right Grant
- 2017-02-28 EP EP17852096.1A patent/EP3501936B1/en active Active
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2019
- 2019-03-21 PH PH12019500614A patent/PH12019500614A1/en unknown
Cited By (1)
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US11155282B2 (en) * | 2016-09-21 | 2021-10-26 | Byd Company Limited | Bogie frame, bogie assembly and rail vehicle |
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KR20190039802A (en) | 2019-04-15 |
EP3501936B1 (en) | 2021-03-31 |
PH12019500614A1 (en) | 2019-11-11 |
EP3501936A4 (en) | 2019-09-11 |
MX2019003215A (en) | 2019-09-05 |
US11155282B2 (en) | 2021-10-26 |
BR112019005487A2 (en) | 2019-06-04 |
KR102168517B1 (en) | 2020-10-22 |
EP3501936A1 (en) | 2019-06-26 |
WO2018054017A1 (en) | 2018-03-29 |
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